eng-0301117_4frnt_UCP (P*)

Transcription

12/5/01
5:02 PM
Page 1
Forefront
C o l l e g e
o f
E n g i n e e r i n g
University of California, Berkeley
Fa l l 2 0 01
A Jewel of a Chip
Elegant next-generation chip
marries memory and logic
Forefront 2000 1
12/5/01
5:02 PM
Page 2
Forefront
C o l l e g e
o f
E n g i n e e r i n g
FOREFRONT reports on activities in
the College of Engineering at the
University of California, Berkeley.
It features developments of interest
to the engineering and scientific
communities and to alumni and
friends of the College.
University of California, Berkeley
Fa l l 2 0 01
Contents
Published three times a year by
the Engineering Public Affairs Office
102 Naval Architecture Building #1704
University of California
Berkeley, CA 94720-1704
Features
6 Inventing the future bit by bit
Dean
A. Richard Newton
Energy-efficient chip may be industry’s newest
performance bonanza
Assistant Dean for College Relations
Melissa Nidever
Public Affairs Director
Teresa Moore
10 Biochips bridge the body’s damaged connections
Editors
Jan Ambrosini
Nancy Bronstein
Tiny neural prostheses could provide Parkinson’s patients
and visually impaired seniors real hope
Design
Cuttriss & Hambleton
Printing
UC Printing Services
Additional contributors:
Ute Frey, Eliza Haskins,
Rachele Kanigel, David Pescovitz,
Robert Sanders
For Information
College of Engineering
Berkeley, California 94720-1700
www.coe.berkeley.edu
Engineering Public Affairs
102 Naval Architecture Building #1704
510/642-5857
Fax: 510/643-8882
Berkeley Engineering Fund
208 McLaughlin Hall #1722
510/642-2487
Fax: 510/643-7054
Industrial Liaison Program
208 McLaughlin Hall #1722
510/642-6611
Fax: 510/643-7054
© 2001 Regents of the
Not printed at state expense.
Printed on recycled paper
with soybean ink.
On the cover
The next generation of mobile phones,
handheld personal computers, even
advanced video games could be packed
with a much anticipated new species of
chip – tiny energy-efficient chips that, for
the first time, embed memory into a
microprocessor to increase a computer
system’s speed while reducing power
consumption and size. The result of
a decade-long research marathon
by computer science professors
David Patterson, Katherine Yelick, and
a small team of graduate students,
IRAM – Intelligent Random Access
Memory – represents a fundamental
change in the way microprocessors do
their work.
For the story, see page 6.
Cover photos by Philip Harvey
12 New perspective on computer simulations
Modeling complex systems, from semiconductor plants to
health care systems, with greater speed and accuracy
2
News Briefs
From the dean
California gives CITRIS a vote of confidence
Civil engineer reports from New York’s Ground Zero
Berkeley memorial draws campus together
Bear facts, bare site
Digital library offers treasures for educators
Clinton’s former technology adviser takes Berkeley post
12/5/01
5:02 PM
Page 1
5
14 Student Gazette
Q & A with University Medalist Christine Ng
IEOR student’s “charming” robot takes top prize in Sun contest
Students find solutions to tough Bay Area construction problems
Engineering team garners third prize in business plan competition
From bridges to kitchen sinks, rust rules at student fair
High-flying students explore how to cut bone loss in space
18 Faculty Highlights
Faculty honors and awards
Tien receives NAE Founders award
In Memoriam: Kurt Spiegler
19 Alumni Affairs
Lifetime EAS membership for all Berkeley engineers
Faculty forum a hit in Silicon Valley
Calendar of short courses at UC Berkeley Extension
Alumni honored for stellar research and service to profession
22 College Support
Students learn about start-ups from Silicon Valley CEOs
Volunteers offer challenge match
Engineering gift report
23 Annual Report
Berkeley Engineering Fund Annual Report 2000-01
10
17
12/5/01
5:02 PM
Page 2
News Briefs
groundbreaking initiative led by
Berkeley to steer information
technology to the service of
society survived California’s 2001-02
state budget process.
The Center for Information
Technology Research in the Interest of
Society (CITRIS) – now funded for
$20 million this fiscal year with a $100
million commitment for the overall
CITRIS project – promises major energy savings for the state and nation.
Funding CITRIS “is a tremendous
success for the campus, the state and
the nation,” says Paul R. Gray, Berkeley
executive vice chancellor and provost
and former dean of the College. “This
takes information technology and
applies it to areas in which it can really
make a difference – health care, air traffic control, disaster preparedness,
e-commerce, and energy efficiency.”
CITRIS – a technology partnership
between UC Berkeley, UC Santa Cruz,
UC Davis and UC Merced – was
proposed to the state last year as one of
three California Institutes for Science
and Innovation with a mission to conduct research in cutting-edge scientific
fields critical to the state’s economy.
While CITRIS was not among the
three chosen in December 2000, Davis
was so impressed with CITRIS’s overall
promise he agreed to fund it as a fourth
institute this year. CITRIS has garnered
at least $200 million in matching
support from business and industrial
partners, federal agencies, and private
donors.
CITRIS research projects could
optimize traffic flow to conserve 37.5
million gallons of fuel annually; create
an emergency lifeline network to save
lives and minimize structural damage
to buildings in an earthquake; serve
more of California’s students through
distance learning and the delivery of
undergraduate curriculum to UC
Merced; monitor health care with
B R U C E C O O K P H OTO
A
From the Dean
I
t is my pleasure to introduce this
newly formatted Forefront, a marriage
of our annual research magazine and
quarterly alumni newsletter, Matrix.
Forefront, which will come to you three
times a year, will continue to feature
in-depth articles on research, but will
also cast a wide net around the College,
providing more spot reporting on the latest discoveries, events, and personalities.
For more frequent research updates, visit
our new monthly online research digest,
Lab Notes at www.coe.berkeley.edu/
labnotes.
I am also pleased to report that our
flagship research institute, the Center for
Information Technology Research in the
Interest of Society (CITRIS), has received
tremendous support in recent months,
detailed on these pages.
All of us at the College were saddened by
the horrific events of September 11 – we
offer our deepest sympathy to everyone
affected by this tragedy. On September 17,
12,000 people gathered at Memorial
Glade on campus to reflect and remember
the dead and missing. They came to seek
the solace of a community devoted to reason and tolerance. Chancellor Robert M.
Berdahl told the crowd, “Let those of us
who hold the candle of learning in our
hands, hold firm in the vigil for freedom and
reasoned discourse.” We pray that his
words will be heeded.
– A. Richard Newton
Dean, College of Engineering
and the Roy W. Carlson Professor of
Engineering
2
|
Berkeley Engineering
state-of-the-art biomedical devices;
and prevent environmental damage.
Two recent developments have
accelerated the center’s growth. The
National Science Foundation (NSF)
announced in September a total of
more than $12.1 million in grants
for the College of Engineering – $7.5
million of which will go to CITRIS
to support work in energy efficiency
P E G S KO R P I N S K I P H OTO
California gives
CITRIS a vote of
confidence
Electrical engineering professor Kris Pister displays
wireless sensors installed in Cory Hall last May
to demonstrate how CITRIS research can reduce
energy costs. This technology could save as much
as $8 billion in state energy costs and 5 million
metric tons of carbon pollution each year. Pister’s
“Smartdust Motes” will soon be sprinkled
throughout other campus buildings, to improve
energy consumption.
and disaster preparedness. In
November, pioneering researcher
Ruzena Bajcsy, the former head
of NSF’s Directorate for Computer and
Information Science and Engineering,
took the helm as the new CITRIS
director.
Three other California Institutes for
Science and Innovation were funded
for a second year at $25 million each,
among them the California Institute for
Bioengineering, Biotechnology and
Quantitative Biomedical Research (QB3),
in which Berkeley is a partner. F
5:02 PM
Civil engineer reports
from Ground Zero
s a structural engineer used to
inspecting buildings and cities
devastated by earthquakes,
Berkeley professor Abolhassan AstanehAsl is no stranger to disaster.
Even so, before flying to New York
on September 19 to conduct a twoweek scientific reconnaissance of the
collapsed World Trade Center, he was
apprehensive. In New York, the site of
“this horrible crime still has more than
6,000 of our fellow Americans, and
others from all over the world, murdered and buried under that rubble,”
he said. “It was horrible – not like
anything I’ve ever seen.”
The reality was sobering, but working 16-hour days out of his hotel a few
blocks from Ground Zero, he was able
to keep his mind off the carnage.
Supported by funds from the
National Science Foundation to investigate the collapse of the two towers,
Astaneh looked at twisted and burnt
steel pulled from the wreckage, searching for clues to the cause and collecting
perishable data.
“In just 10 days looking at the pieces
that are coming out, I have learned so
much about the collapse,” he said. “We
will learn many valuable lessons from
this tragedy to improve our structural
design and construction and the effects
of fires on steel structures.”
While visiting the New York Times
offices, Astaneh heard about plans to
immediately recycle steel from the site.
Instead he lobbied and convinced city
officials to wait until the debris had
been inspected by structural engineers.
As co-recipient of one of eight NSF
grants awarded in late September to
conduct post-disaster assessments at the
attack sites, Astaneh and colleagues will
analyze data on structural engineering,
damage assessment, and emergency
response. The data will be used to help
improve the structural integrity of the
nation’s buildings, utilities, and other
infrastructure in any disaster.
Despite its horror, Astaneh was com-
A
Page 3
Out of more that 20,000 tons of steel at the
recycling plant housing the materials, Astaneh and
ironworkers he trained identified several columns
and beams from the WTC Towers that clearly
suffered direct impact by a plane. Above, Astaneh
inspects one of these critical members, part of an
internal box column.
pelled to go to New York to salvage
information from the tragedy. As one
of just a few other Iranians or Muslims
within the restricted area around the
site, he recalled his own arrival to this
country in 1978. One of his family’s
first and most lasting images of
America was the unbelievably tall
towers of the World Trade Center.
Astaneh’s interest in preventing the
structural damage caused by bombs dates
from 1995 and the Oklahoma City
bombing of the Alfred P. Murrah Federal
Building. That structure, built of nonductile reinforced concrete, not steel,
collapsed entirely, killing 168 people.
The World Trade Center was far better
constructed than the Murrah building,
down to a pedigree for each steel
beam and a welder’s signature on
each weld. Designed to withstand
a crash from a Boeing 707, both
towers stood firmly after the
planes hit. The columns, however,
were not designed to withstand
an intense fire from thousands of
gallons of jet fuel, and both towers collapsed after about an hour
– time enough, however, for
thousands to flee.
Astaneh will continue his
research into protecting steel
structures, and has already tested
a design of his own involving
bolting reinforced concrete plates to
steel shear walls.
“Although I did not think of planes
crashing into buildings when I was
developing the system,” he said, “after
seeing how easily the 767 entered the
World Trade Center towers and delivered almost all of its jet fuel inside the
building, I thought about what would
have happened if the exterior of the
building was this composite system that
we’ve developed.” A plane hitting such
a system would most likely “accordion,”
keeping most of the plane and its fuel
outside the building, he said.
As he pursues bomb-resistant, antiterrorist building designs, however,
Astaneh will forever be left with images
of the destruction in New York.
“Human dignity has been brought
down so much by this attack,” he said.
“The depth of loss and sorrow is
immeasurable.” F
12/5/01
H N S E P H OTO , F O R A STA N C H U C B / N S F R E P O RT
The Berkeley response to the
September 11 terrorist attacks in New
York and Washington, D.C. was broad
and profound. “Within a few hours
of the tragic news, Berkeley students
had set up an open Web site to help
families and friends search for news
of their loved ones,” said Chancellor
Robert M. Berdahl at a private memorial
service for Mark Bingham, an alumnus
who was on United Airlines Flight 93.
“Others organized prayer vigils.
A blood drive sprang up instantly.
Berkeley once again showed itself
to be a place of action.” Above, more
than 12,000 students, faculty, staff,
and friends gathered on Memorial
Glade on September 17 to reflect,
remember, and honor those who lost
their lives.
Forefront Fall 2001
|
3
12/5/01
5:02 PM
Page 4
Bear facts, bare site
ast summer the “Macchi Bears” –
cherished Berkeley icons for the
past 14 years – were temporarily
removed from the comfort of their
pedestal just outside McLaughlin Hall
and taken to a bronze foundry in
Berkeley for a much needed make-over.
A gift from the late 1936 CE alumnus A. John Macchi, these twin Russian
black bears were cast in 1915 by New
York artist Edmund Schulte Beckum,
one of a skilled group of sculptors and
metal workers whose art was essential to
the elegant Beaux-arts architecture of
the early of the 20th century. Beckum’s
commission, from the Rossia
Insurance Company of what
was then Petrograd, was to
create a set of bears for the
entrance to the Russian
company’s new U.S. headquarters in Hartford,
Connecticut. Using variations of an old technique
popular in Russia, called
“repoussé,” Beckum applied
thin sheets of hammered
copper to form the stylized bears in
relief. Though they look massive and
heavy, the bears are actually hollow and
quite light.
Years ago, when the Hartford building was slated for demolition, Macchi
made up his mind to rescue the bears
from a similar fate and arranged to
bring them to the engineering quadrant
of the Berkeley campus. After being
restored by the Department of Art, the
bears were ceremoniously installed outside McLaughlin on a rainy November
day in 1987, with the dramatic words
of then-Dean Karl S. Pister who signaled the unveiling with “Fiat ursae!”
(“Let there be bears!”).
But a total of 86 years out in the elements had taken a toll. “The bears were
deteriorating badly and were extremely
fragile when we got them,” says Tom
Schrey, production manager at
Artworks, the largest fine art bronze
foundry in the Bay Area, where the
bears have been shepherded through
their current restoration. When completed, a brand new set of cast bronze
L
F L O R E N C E B A L D W I N P H OTO
News Briefs
4
|
TOP TO BOTTOM:
Foundry workers carefully removed the bears from
their McLaughlin lair last summer.
This bear is resting up at the foundry, after its first
molds were completed.
Artworks production manager Tom Schrey displays
the mold taken from a Macchi bear leg and paw.
bears will emerge – exact replicas of the originals – but much
more durable. (After minor
repairs, the original pair may
reside in an indoor setting at
the Richmond Field Station.)
The meticulous and timeconsuming process, funded by
the John Macchi Trust (John
and his wife Kay passed away
last year) began last summer.
Artworks technicians began by
removing old fiberglass resin
patches, evening out the damaged surface of the bears, and filling in
holes with clay to restore the surface to
prepare the bears for casting. Then they
began the process of making molds,
taking a series of negative impressions,
one small section at a time. Each mold
is used to make a wax replica, which is
then encased in a ceramic shell surrounding the wax, and kiln-fired melting the wax away, like lost wax techniques used to make jewelry, but on a
much larger scale.
Foundry technicians next poured
molten bronze into the
molds. Once the bronze
cooled and set, the
ceramic shell was sandblasted away, cleaned
off, and the connecting
tubes that delivered the
molten bronze cut and
ground away. Finally, all
the sections were
welded together, the
surfaces artificially
weathered to match
what passersby have
seen (and stroked) for
years on the original Macchi bears.
“When we’re finished, the campus
will have two brand new, beautiful
bronze bears that are very strong,” says
Piero Mussi, Artworks owner. “Like
ancient Chinese bronzes, the new Macchi
bears should last thousands of years.”
The bare bear site will soon be graded
and prepared with a new granite
platform and paving, and fresh background planting in preparation for the
much anticipated reinstallation in a
few months. F
12/5/01
5:02 PM
Digital library offers
treasures for educators
fourth-grade teacher is searching
for a novel way to help a bright but
resistant student struggling with
long division.
An undergraduate geology student
researching earthquake-induced soil liquefaction is looking for diagrams to use
in a class presentation.
An electrical engineering professor creating a new course on electronics for electric vehicles is seeking curriculum ideas.
Each one could spend hours on the
Web wading through screen after screen
of interesting but irrelevant information. Or they could simply go to the
National Science, Math, Engineering
and Technology Education (SMETE)
Digital Library at smete.org and find
exactly what they are looking for.
Headquartered on the Berkeley campus in Etcheverry Hall and funded over
the past 10 years with more than $5
million in grants from the National
Science Foundation, the SMETE
Library is a new gateway to a comprehensive collection of resources for
teachers and students. Here, in one
place, users can find tutorials, teachers’
guides, lessons plans, videos, and other
tools to aid teaching and learning.
“We like to call it the Library of
Congress for science, mathematics,
engineering and technology education,”
says Alice Agogino, the Roscoe and
Elizabeth Hughes Professor of
Mechanical Engineering and principal
investigator on the project.
The portal is a product of the
SMETE Open Federation, a project
funded by NSF to advance scientific
education in the U.S. Joining in the
project are more than 20 partners from
academia and industry, including the
American Association for the Advancement of Science, the Eisenhower
National Clearinghouse for Mathematics
and Science Education, the Mathematics
Association of America, John Wiley &
Sons, and Microsoft.
The SMETE digital library, which
went online June 1, grew out of the
National Engineering Education
Delivery System (NEEDS), which was
developed in the 1990s by a coalition
of nine universities that were trying to
reform undergraduate engineering
education, Agogino says.
Once the NEEDS system was established, organizers decided to expand the
focus to include the related fields of
science, mathematics, and technology.
In addition to providing access to
information, the digital library aims to
create a community of teachers and
learners who can
share resources and
ideas. “Users tell us
that they want to
know what both
experts and others
using the materials
think of the
resources we offer,”
says Flora
McMartin, director
of evaluation for
smete.org, who
encourages users
to discuss their
views about the
materials through short amazon.comstyle comments.
“We’re changing from a static repository of information to a dynamic, living, growing entity that may transform
A
Page 5
Alice Agogino and Brandon Muramatsu have incorporated a series of case studies into the digital
library, offering high school, college, and graduate
students “hands-on engineering experience.” One
of these is a design-for-manufacturing case study
that enables students to explore the engineering
efficiency behind toy design and manufacture.
science, math, and technology education,” says Brandon Muramatsu, project
director of the digital library.
While the site is mostly geared to
educators, Muramatsu says, “our ultimate target audience is anybody who’s
interested in science, math, engineering,
and technology education from the
moment they’re born to the moment
they die. We like to think of ourselves as
a resource for the pre-K to gray set.” F
Clinton’s former
technology adviser
joins Berkeley
ne of former President Clinton’s
key technology advisers, Thomas
A. Kalil, took a similar advisory
post at Berkeley last summer, to help
develop new research initiatives and
increase Berkeley’s role in shaping the
national agenda.
Kalil served under Clinton for eight
years, eventually becoming deputy assistant to the President for technology and
economic policy and deputy director of
the National Economic Council. He
was the “point person” on a wide range
of science, technology, and telecommunications issues, including the National
Nanotechnology Initiative, the Next
Generation Internet, and efforts to
expand funding for the physical sciences and engineering.
As assistant to the chancellor for science and technology, Kalil will help
Berkeley faculty members develop
research and education initiatives that
respond to national priorities and that
build strong partnerships with government agencies, the private sector, and
community-based organizations.
Kalil will work primarily with
researchers in the two California
Institutes for Science and Innovation in
which Berkeley plays a lead role – the
California Institute for Bioengineering,
Biotechnology and Quantitative Biomedical Research (QB3) and the Center
for Information Technology Research
in the Interest of Society (CITRIS). F
O
Forefront Fall 2001
|
5
12/5/01
5:02 PM
Page 6
Energy-efficient
chip may be
Inventing
the future bit by bit
industry’s newest
performance
bonanza
I
n the esoteric world of computer architecture, Berkeley computer
science professor David A. Patterson is a rare breed of prognosticator – one who not only has a distinguished track record in his
field, but runs the distance himself. As the classic technology rally call
goes, he predicts the future by inventing it.
When he’s not patenting new chip
technology, Dave Patterson is benchpressing weights, playing soccer, or
tooling around on his mountain bike..
6
|
Two decades ago, Patterson raved about a
new computer architecture, now a household word in computer parlance, called
RISC – reduced instruction-set computing
– an against-the-grain computer architecture
he and his students developed to simplify
computer chips by transferring an increased
number of tasks to software. When the
speedy and low-cost RISC chips made their
commercial debut in the mid-1980s, the
microprocessor market was changed forever.
Following the ignition of the RISC revolution, Patterson focused his forecasts on disk
drives. The result in 1986 was RAID,
Redundant Arrays of Inexpensive Disks.
The clusters of fast and cheap disk drives
Patterson helped develop with Berkeley
computer scientist Randy Katz became
the core of a $30 billion per year file
server industry.
When David Patterson gazes into his technological crystal ball and lays out the future,
the industry listens. And what they are
hearing now is the sound of an IBM chip
fabrication plant cranking out the first full
prototype of Patterson’s IRAM – Intelligent
Random Access Memory – chip. Its anticipated arrival date could be as early as spring
2002. “It’s really the last few miles of this
marathon,” Patterson says. The IRAM
concept, as developed by Patterson and
Berkeley computer science professor
Katherine Yelick with a small team of
dedicated graduate students, is simple but
profound: embed memory into a microprocessor to increase a computer system’s
speed while reducing its power consumption
and size; then teach it to think using a 30year-old style of programming. If it works
as expected, IRAM will be just the ticket
for next-generation mobile phones and
handheld personal computers.
“IRAM makes for a performance bonanza,”
Patterson says. “And it has the advantage of
being smaller and more energy-efficient than
current architectures.”
Here’s how it works: dynamic random
access memory (DRAM) chips are found in
nearly every computer system. They act as a
scratch pad for software. Data is temporarily
stored in the DRAM for quick access by the
computer’s brain, the microprocessor chip.
The problem is that the two components
can not communicate quickly enough to
take full advantage of the blazing speeds of
today’s microprocessors – machines that
function 100 times faster than their 20-yearold ancestors. Meanwhile, memory chips,
while vastly expanding in capacity, have only
seen a tenfold speed increase. The result is
latency, time wasted by the microprocessor
waiting for the data it needs from DRAM.
12/5/01
5:02 PM
Page 7
The other problem faced by today’s
microprocessors is available bandwidth, the
amount of data that can be transmitted in a
given amount of time. Most DRAM designs
on the market today have only a handful of
output lines to connect to the microprocessor, the makings of a binary bottleneck.
Running more wires between the DRAM
and a microprocessor so they can exchange
more data at a faster pace is expensive.
Furthermore, sending signals between chips
takes power, a scarcity in any battery-operated
mobile computing device.
For years, computer architects have
attempted to deal with what they call the
“Memory Wall” by adding levels of cache
RAM (cache being a small amount of fast
memory stored on the processor chip in
most computers) both on and off the microprocessor to hold frequently-accessed data.
While this kind of “short-term memory” is
faster than DRAM, it is also far more expensive, and is yet another space and power hog.
“Just look in any electronics catalog, and
you’ll see all kinds of bragging about processor cache size,” Patterson says. “That whole
‘bigger is better’ attitude just contributes
to the memory problem. Companies are
dedicating half the space on a processor chip
to cache (in place of transistors for processing). That makes the chips more expensive,
and you still need the DRAM.”
With IRAM though, 100 million transistors fit on a single 18.5 mm by 18.5 mm bit
of silicon, perfect for a pocket PC.
The elegance of IRAM comes from integration – the DRAM memory and the
microprocessor are built together on the
same piece of silicon real estate. Data can fly
between the two through a freeway system
of pipelines, negating the need for caches
and increasing bandwidth by a factor of 10
– all that with little energy drain. Latency is
improved by a factor of five simply because
the time a signal takes to travel between the
processor and the memory is minimized by
the components’ proximity. Also, the memory and the processor are built from just two
distinct kinds of modular building blocks
that can easily be increased or decreased in
number. This reduced complexity means that
the architecture is easily scalable depending
on performance and cost requirements.
The idea for IRAM first popped into
Patterson’s mind in 1990 as he prepared for
a panel discussion on the coming decade of
computer design, he says. Given that chips
packed with one billion transistors were on
the horizon, Patterson was asked to speculate on how tomorrow’s computers might be
designed to take advantage of the huge processing capabilities.
“I said you could combine the processor
and the DRAM to make a single chip,” he
recalls. “I may have even used the word
IRAM, but I didn’t do anything with the
idea until Scientific American called five
years later in 1995.”
His assignment from the respected popular science magazine was to predict the
future for a broad scope article envisioning
Kathy Yelick and Christoforos Kozyrakis
in the Soda Hall lab where IRAM has
been designed.
“IRAM has the advantage of being smaller and
more energy-efficient than current architectures.”
Forefront Fall 2001
|
7
12/5/01
5:02 PM
Page 8
The elegance of IRAM comes from integration –
the DRAM memory and the microprocessor are built together
on the same piece of silicon real estate.
on desktop and server design was slowly
microprocessors in 2020. By that time, the
expanding, even shifting, to a post-PC
article promised, one computer will be as
paradigm. Within this new digital domain,
powerful as all the computers in Silicon
information appliances – interactive TV
Valley circa 1995. It was in this article that
set-top boxes, advanced video games, and
Patterson nailed down his emerging notion of
other networked devices around the home
IRAM, along with other possible innovations.
and office – and personal mobile wireless
“Today microprocessors and their memodevices, such as cell phones and palmtop
ries are made on distinct manufacturing
computers, are as important to information
lines, but it need not be so,” Patterson
infrastructure as traditional PCs and file
wrote. “To narrow the processor-memory
servers. And if Patterson and Yelick are
performance gap, to take advantage of
right, IRAM could become the architectureparallel processing, to amortize the costs of
of-choice for this post-PC era.
the line, and simply to make
The two envision personal
full use of the phenomenal
IRAM could become
digital assistants (PDAs) that
number of transistors that can
the architecturebe placed on a single chip, I
take dictation, cellular phones
predict that the high-end
with perfect speech recogniof-choice for this
microprocessor of 2020 will be
tion, and TV set-top boxes that
post-PC era.
an entire computer” on a sindeliver incredibly fast and lifegle chip, containing both the
like interactive graphics to your
logic and memory.
living room.
But the nagging question, according to
Indeed, Yelick points out, the closest thing
Patterson, was “can a half-dozen graduate
to IRAM commercially available today are
students and I, with one-hundredth the
the chips found under the hood of Sony’s
budget of a big company, design a 100
popular, high-powered PlayStation 2
million-transistor chip?” It was a question
videogame. Already, most laptop computer
someone had asked early in Patterson’s
screens are driven by chips that are partresearch at a talk he gave at Stanford. “You
DRAM and part-logic processors. Chiphave to remember that these are Berkeley
manufacturer Siemens is also reportedly
grad students,’” Patterson answered.
developing a combination DRAM/processor
One of those students is Christoforos
chip for speech recognition and a personal
Kozyrakis, now the lead graduate student on
mobile language translator device.
the IRAM project. Kozyrakis, a graduate of
But, according to Berkeley’s IRAM
researchers, the real power behind the
the University of Crete in Greece, studied
IRAM architecture comes not only from the
under Manolis Katevenis, Patterson’s lead
merging of brains and memory, but from a
graduate student on the 1983 RISC-II chip.
fundamental change in the way the proces“In the beginning, IRAM was more of a
sor does its job.
solution looking for a problem than a problem
“A lot of my research is on how to get
searching for a solution – an intriguing idea,
high performance out of single processor
but the application wasn’t obvious to us at the
machines,” Yelick explains. “But the big
time,” Kozyrakis says. “But the goals became
problem is the memory. It’s very hard to get
more and more specific as we went along,”
the performance that users expect when they
adds Joseph Gebis, another graduate student
look at the hardware’s clock rate.”
with a long history in the IRAM stable.
Immersed in deeper and deeper hierarThe possible IRAM applications began to
chies of memory caches, Yelick searched
crystallize as well. In the mid-1990s the
long and hard to find a novel approach to
long-standing industry and academic focus
8
|
12/5/01
5:02 PM
the memory wall problem. She eventually
revisited a 30-year old concept called
vector processing.
Originally used at the dawn of the digital
age in huge, room-sized supercomputers,
vector processing works by applying one
instruction, addition for example, to entire
lists of numbers all at once, rather than performing the computation one calculation at
a time. While it was invented to perform scientific calculations, vector processing is also a
perfect match for multimedia applications.
For instance, Yelick explains, a group of
pixels on a screen can be considered a vector. If you want to change the hue of those
pixels, you could simply apply the same
“transform” instruction to all of them at
once instead of altering each pixel in turn.
“Vectors are kind of an older idea,” says
Patterson, “and people tend to get more
excited about new fangled fads. You’d think
that as engineers we wouldn’t be subject to
the whims of fashion, but that’s one of the
issues that we face.”
One saving grace was that Yelick secured
a donation from Cray Inc. – the market
leader in high-end supercomputers.
Cray offered their compiler, a computer
program that translates software from
common programming language into the
machine language understood by the vector
processor. The back-end software Yelick
developed for the compiler enables the
IRAM chip to be programmed in common
languages like Fortran, C, and C++. The
compiler will then identify instructions in
the software that can be “vectorized.”
“An even tougher challenge is whether we
can take any old program and use this compiler to vectorize it,” Patterson says. “But the
flip side is that a bunch of the competing
ideas in computer design are much harder
to program than ours.”
In addition to finessing the compiler,
Yelick is working with a group of computer
science undergraduates on the creation of a
benchmarking suite of software to test the
multimedia capabilities of their IRAM chip
once it is ready to power up. And, in line
with her research history on high-performance scientific computing, Yelick is collaborating with a small group at Lawrence
Berkeley National Laboratory to determine
if select scientific applications can run on
IRAM, as they currently do on supercomputers – now considered by many to be an
endangered species.
Page 9
“There’s not a big enough market to sustain vendors building supercomputers for
scientific applications,” Yelick explains. “And
researchers are moving over to clusters of
PCs to do high-performance computing.”
But what of the market for IRAM? The
big chip manufacturers are already dabbling
in merging DRAM and logic fabrication
lines, while products like the PlayStation 2
are commercial proof that an IRAM-style
architecture combined with vector processing can yield a hot rod multimedia machine.
But even with the 100 million-transistor
vector IRAM prototype on its way back
from the IBM chip fabrication facility,
Patterson is cautious. There are benchmarks
that need to be run and software to be
massaged, keeping his latest proof-of-concept a work-in-progress for the time being.
Ultimately, whether IRAM ends up inside
tomorrow’s mobile phones, PDAs, and
interactive televisions is up to the industry.
“What we’ve always done was to prove an
idea with a prototype so that commercial
companies could build newer and bigger
things by putting more than a half-dozen
people on the project,” Patterson says. “Our
goal really is just to convince skeptics and
inspire others to take our work further.” F
The IRAM team outside Soda Hall,
from left, Christoforos Kozyrakis,
Dave Patterson, Joe Gebis, Kathy Yelick,
Sam Williams, and Hiroyuki Namasaki.
Written by David Pescovitz, a contributing editor to Wired.
Pescovitz writes about technology, art, and culture. His work
has appeared in Scientific American, New Scientist, the New
York Times, and Salon, and he writes Lab Notes (www.coe.
berkeley.edu/labnotes), the College’s online research digest.
Forefront Fall
2001
|
9
12/5/01
5:02 PM
Page 10
Tiny neural prostheses
could provide
Parkinson’s patients
Biochips bridge
and visually-impaired
seniors real hope
the body’s damaged connections
B
erkeley bioengineer Luke Lee envisions a day when nanoscale
devices implanted in the brains of Parkinson’s patients
constantly monitor neural activity and deliver the right cocktail
of drugs precisely where and when they are needed to counter the
disease’s debilitating effects. He foresees a day too when implanted
chips bridge damaged connections between the eye and the
visual cortex, returning sight to elderly patients blinded by age-related
macular degeneration.
Lee’s collaborative pioneering
research in neurobiology, biophysics, and bioengineering will
establish new tools to treat a variety
of diseases and medical conditions
from Parkinson’s and epilepsy to
age-related macular degeneration.
10
|
Lee, who joined the faculty in 1999, is
convinced he can engineer a new generation
of biopolymer-based microsystems for neural prostheses, such as artificial retinas and
intelligent neural interfaces linked to a
nano-fluidic drug delivery system. And he is
devoted to pursuing their development.
“Right now, all prostheses are large-scale,
like big artificial arms or legs,” he says. “But
my hope is to challenge the small scale to
see how far we can go. This is my dream.”
Lee’s interest in neuroprostheses arises out
of his primary work with micromachining
technology. He co-directs the National
Science Foundation-sponsored Berkeley
Sensor and Actuator Center (BSAC) – a
center devoted to research on sensors and
minuscule moving mechanical elements
(also known as microelectromechanical
systems or MEMS). His BSAC research
focuses on shrinking equipment that would
normally cover an entire laboratory bench
down to fit on a one-square-centimeter
chip. In particular, Lee is developing biomolecular nanolabs on a chip, and a
nanoscopic confocal microscope for noninvasive living cellular imaging and molecular
interaction study.
So far, Lee has succeeded in shrinking the
lab down to the size of a credit card, and is
now developing technology to focus the
pinpoint light within the mini-microscope
more accurately. The results these projects
produce, says Lee, could greatly aid companies engaged in pharmaceutical research, as
well as researchers studying the human
genome and the structures of proteins.
While working on these more mainstream
projects, Lee began considering other applications of the technologies he was developing. “Why can’t we challenge the technology
with uses that will quickly change the lives
of people who are quite ill?” he wondered.
Lee realized that the miniature fluidic
channels that make up much of his lab-ona-chip technology could also be used in an
implant to deliver drugs to Parkinson’s
patients, whose brains do not produce
enough of a neurochemical called
dopamine. Dopamine affects the brain
12/5/01
5:02 PM
processes that control movements, muscle
rigidity, as well as the ability to experience
pleasure and pain – all characteristic of the
disease. According to Lee, his brain stimulator
would “sense” when dopamine levels in different areas of the brain drop, then release similar neurochemicals to those specific areas to
compensate, lessening the disease’s symptoms.
To make a working neural prosthesis,
however, Lee must modify the traditional
biomedical MEMS (bioMEMS) techniques
now routinely used to fabricate a wide range
of engineering and biomedical devices.
These techniques, for example, can make
arrays of micro-optical tweezers capable of
picking up individual strands of DNA, with
tips 20 times thinner than a human hair.
“Conventional bioMEMS technology is
silicon-based,” Lee explains, “but when
silicon is introduced into the human body
in an implantable device, it can cause an
immunological reaction. So our task is
to develop micromachining techniques that
will work with biocompatible polymers, like
Teflon.” Indeed, Lee has successfully cut
fluid channels that are a mere 10 microns
in width – one-tenth the thickness of a
human hair – in a sample of Teflon, proving
that polymers can be manipulated by
bioMEMS techniques.
In another aspect of this research, Karen
Cheung, a doctoral candidate working with
Lee in the UC San Francisco/Berkeley bioengineering program, has developed a neural
probe that records electrical activity in the
brain. The probe contains 16 electrodes on
four “fingers.” Each finger is a mere 100
microns wide, approaching the width of a
human hair. In collaboration with Yang
Dan, Berkeley professor of neurobiology,
Lee and Cheung have tested the neural
probe with anesthetized cats and found that
it could accurately measure a complex variety of responses to visual stimuli in their
brains – evidence that the detector part of
their brain stimulator can work.
Lee and Cheung are now combining the
two parts of their research, adding microfluidic channels to the fingers of the neural
probe. They are also investigating how
details in the surface structure, or topology,
of the probe’s fingers affect its ability to
maintain contact with the surrounding tissue. Since a polymer-based neuroprosthesis
will have different physical and mechanical
Page 11
properties than the brain tissue in which it
is embedded, even subtle movements of a
patient’s head could shift the device out of
alignment. It therefore becomes critical that
the interface between the two mediums
maintains a reliably strong connection, no
matter how a patient moves. “Once you lose
the connection, you lose all electrical measurements,” Lee says. “So you would misjudge that there is no activity, and the neuroprosthesis would keep on releasing drugs
when there is no need for the medicine.
That could be very dangerous.”
Over the next five years, Lee hopes to
work out the problems involved with the
brain stimulator. A daunting enough challenge, but less so than the challenge he and
his students face with their proposed retinal
implant – at this point still a project lurking
in the more distant future.
Lee’s idea for creating a retinal implant
starts with a microlens that focuses light
entering the eye onto the neural prosthesis’
detector. “The detector sends a signal to a
conducting polymer,” he explains, “and the
conducting polymer then connects with the
neural pathway, effectively bypassing the
patient’s damaged retina.”
Lee hopes to extract double duty from the
microlens he is developing for the chip-sized
nanoscopic confocal imaging array, using it
also as a major component of a retinal
implant. But integrating an optical system
with bioMEMS-devices and interfacing
them with visual neurons is proving difficult
to accomplish on the micro- and nano-scales
necessary. “Difficult, but not impossible,”
says Lee, who is passionately committed to
this research. “Although this research doesn’t
typically attract major funding because
there’s no big market for these devices, I feel
compelled to stay involved with this work.
“It’s important to teach Berkeley students
how to identify marketable projects,” says
Lee. “But it’s also important to train them
to be critical thinkers with a long-term
vision, regardless of the most current market
trends. We must have both macro- as well as
microscopic visions to fulfill society’s needs.
I think a lot about social responsibility. After
all, I’m a Berkeleyan.” F
Using micromachined Teflon (here
magnified roughly 120 times) rather
than the more conventionally used silicon to fabricate bioMEMS drug delivery devices could minimize the risk of
an adverse immunological reaction,
Lee discovered.
Lee is shrinking
equipment that
normally covers
a lab bench
down to fit on
a one-squarecentimeter chip.
Written by Sally Stephens, a freelance astronomy writer
based in San Francisco. Formerly a staff scientist and editor
of Mercury, she co-authored The Sporting Life, a book on
the science of sports.
Forefront Fall
2001
|
11
12/5/01
5:02 PM
Page 12
Modeling complex
systems, from semiconductor plants to
health care systems,
New perspective
with greater speed
and accuracy
on computer simulations
E
ngineers depend heavily on computer simulations for countless applications, from designing manufacturing plants or
evaluating environmental hazards to managing transportation
networks or predicting the financial fortunes of corporations.
From modeling banking operations
to disease outbreaks, computer
simulations employing Lee
Schruben’s method will be faster
and more accurate.
12
|
Whatever the purpose, prevailing wisdom
state of a system and track the dynamic
holds that a computer model’s accuracy is
relationships between these events. The
directly related to the number of finely
cause-effect interactions of events are repretuned details it incorporates. But models
sented by a network Schruben calls an
that are mired in detail can be so slow and
event graph, which aids in modeling very
unwieldy that their analytical usefulness is
large-scale systems using a “top-down”
severely limited. Berkeley’s Lee Schruben,
approach. He compares the advantages of
chair of industrial engineering and operathis approach to simulation design with the
tions research, has developed an approach to
perspective one gains from looking at a syssimulation design that promises to produce
tem from a bird’s eye view. Viewed from a
faster, more effective computer simulations
sufficient height, he says, even a complex
that employ a broader view of the problem
entity, such as a medical center, appears to
at hand.
be a single object. From such a vantage
Schruben’s ideas have created quite a stir
point, one can study how that particular
in the modeling community,
object interacts with other,
among business and industrial
nearby objects in the system
concerns that rely on simulavia transportation and
Models that are
tions, including high-tech
communication links.
mired in detail can
manufacturing giants like Intel
The view from a somewhat
Corporation. Schruben’s curlower altitude reveals more
be so slow and
rent research is sponsored by
detail: the transportation
unwieldy that
Intel, the Semiconductor
links include roads, trucks,
their analytical
Research Corporation,
automobiles, and public
International Sematech, and
transit systems that transfer
usefulness is
the National Science
people and supplies in and out
severely limited.
Foundation. Silicon Valley
of the medical center. A closer
companies, such as Applied
look from an even lower altiMaterials, are currently applytude shows people, including
ing his ideas to design the next generation of
patients, caregivers, maintenance personnel,
semiconductor manufacturing equipment.
and administrators, all moving from place
Schruben works with discrete-event simuto place within the center, interacting in a
lations, which model events that change the
variety of ways.
12/5/01
5:02 PM
Schruben uses the example of a semiconductor factory to compare a top-down
approach with more conventional, bottomup simulation styles. “Semiconductor wafer
fabrication can be modeled from the
viewpoint of the products – the wafers
themselves,” he explains. “That is how most
people currently do it.” Schruben points out
that this kind of model, referred to in the
semiconductor industry as a job-driven
simulation, requires tracking every wafer or
lot at every processing step performed in
the product’s manufacture. “But there are
thousands, tens of thousands of these wafers
in the factory, causing these simulations to
take a very long time to run.” The simulation’s speed decreases with the increase in
the number of jobs being tracked. At times
the system can become so congested the
simulation essentially grinds to a halt.
“One can look at the system differently,”
Schruben continues, “from the perspective
of the resources – the operators and the
machines that process the wafers.” These
resources are numbered in the hundreds, in
contrast with tens of thousands of wafers.
“This method models what the resources
do, and distinguishes the individual products only when absolutely necessary, which,
it turns out, is not very often,” says
Schruben. “In most cases, we only need to
count the number of wafers at a particular
process step at a particular time.”
Focusing more closely on the resources
used to make the product, rather than the
product itself, makes the simulation “insensitive to congestion,” as Schruben puts it.
“It runs at virtually the same speed, regardless of the number of jobs being processed.
This resource-based approach allows
simulations of high-level, highly congested
systems to run much faster, but, of course,
with the loss in resolution inherent in a
high-altitude view.”
Schruben is confident that resource-based
simulations are capable of running 100
times faster than conventional models. That
means run times of hours or days can be
pared down to minutes, or even seconds.
And this is with models that run on PCs –
no heavy number-crunching supercomputers are required. “About 10 years ago,”
he says, “working with some people at
International Sematech on the early stages
of the event graph methodology, we developed a cluster tool simulator that ran
35,000 times faster than a commercial
job-driven simulation.”
Page 13
Currently, Schruben
and his students are
working with colleagues
at Intel and Arizona
State to speed up wafer
fabrication simulation
models by developing
new methodologies that
take full advantage of
the resource-driven
approach.
Schruben came to
Berkeley as a full professor in 1998, after 23
years at Cornell
University, where he
began developing the
fundamentals of the
event graph approach
almost two decades ago.
But it took the development of fast computer graphics to enable this methodology to
really be useful in modeling large-scale systems. Since then, he and his colleagues and
students have used the approach in a wide
variety of commercial applications, including radio and television advertising campaigns, livestock disease management, food
production and distribution, banking operations, health care systems, and even design
and revenue management of golf courses.
Speed is a crucial component of a useful
simulation, says Schruben, since speed
makes it possible to design and run appropriate experiments. But it’s only part of the
equation. He maintains that a simulation
should be flexible enough not only for system design, but also for the ongoing analysis
of a system’s operation, to discover areas
where improvements can be made. With
added speed comes the possibility that a
simulation can do much more than simply
compare the outcomes of a variety of proposed scenarios.
“Simulations can help find answers,” he
says. “But I think these models can help
even more when they are used to identify
the important questions, questions that help
drive an operation’s success and efficiency.
This takes extensive experimentation, for
which execution speed is vital. Sometimes
the question we think we want to answer
isn’t the best question to ask.” Asking the
right questions, he says, is key to identifying
new, as yet unimagined, opportunities. F
Run times of hours
or days can be
pared down to
minutes or seconds
– and no heavy
number-crunching
supercomputers are
required.
Written by Devi Mathiew, a Bay Area science writer and
communications consultant who specializes in writing about
technology, environmental science, and medicine.
Forefront Fall 2001
|
13
12/5/01
5:02 PM
Page 14
Student Gazette
Q & A with University Medalist Christine Ng
A
Q:
A:
How and when did you first
realize you were interested in
engineering?
P E G S KO R P I N K S I P H OTO
When I was younger, I always
wanted to be an architect. I took a
class in architecture and enjoyed it, but
I think then I was more concerned with
how things worked, how they became
real. I don’t think I realized it then, but
I was thinking from a civil engineering perspective. Then in high
school, my biology teacher got me
to enter an engineering design
contest, and I realized that my
mind is more analytical. And that
was really it.
Q:
The current undergraduate
population of women in the
College of Engineering is only 23
percent. While that figure is slowly climbing each year, science,
math, and engineering still remain
male-dominated fields. What challenges
did you face as a female engineering
student, and what do you think can be
done to encourage more girls to become
involved in these fields?
A:
When I first came to Berkeley, I
saw a lot fewer females than males
in my engineering classes. And there
aren’t very many female faculty members either. At first, it did worry me a
little because I thought I’d be entering a
field that wouldn’t be welcoming to
women. But as I started working in
industry during the summers, I found
that they were very interested in recruiting women. And while there aren’t a
lot of female engineering students, I
found Cal to be a very supportive environment. If girls at the junior high
t the end of each academic year,
the Berkeley campus bestows its
highest honor – the University
Medal – to the top graduating senior.
This year, that honor went to civil and
environmental engineering senior
Christine Ng. A Chancellor’s Scholar,
former president of the campus’ branch
of the Society of Women Engineers,
and Tau Beta Pi member, Ng also
maintained a near-perfect overall GPA
of 3.99 during her time at Berkeley.
In the flurry of packing and getting
ready to leave for graduate school at
MIT where Ng plans to combine engineering and technology with business
and public policy, we stole a few
moments of her time for a brief interview. She talked about being a woman
in a traditionally male-dominated field,
how she thinks engineering will affect
our futures, and how it feels to receive
the University’s most coveted honor.
As the spring
semester wound
down, Ng took a
break beside the
College’s Macchi
Bears near
the entrance to
McLaughlin Hall.
school level could
be introduced to
how non-threatening these fields
really are, they
would be more
inclined to pursue them. It seems that the barriers
are really more perceived than real.
Q:
A:
What are your plans for the
future? What kind of research will
you be working on in graduate school?
I’m very excited about combining
engineering with policy and management. It seems that a lot of engineering is learning formulas and making
calculations. It’s important for engineers
to learn more about other aspects of
engineering – to broaden their scopes a
bit. I hope to combine my environmental engineering background with public
policy, so I can better understand the
process. Now the decisions are pretty
much made by the bureaucrats who
often don’t understand the engineering
side of projects when they begin
building roads or water systems or
other structures.
Q:
A:
How has being named
University Medalist changed
your life, if at all?
It is such a huge honor that I’ve
had the opportunity to meet more
people as a result of receiving it. I
mean, it was so exciting to have dinner
at the Chancellor’s house and meet
[commencement convocation speaker
and former Attorney General] Janet
Reno. But I’ve also met so many other
people, and it’s great. So I’ve had a lot
of people come back into my life and
have reconnected with them. It’s a
wonderful graduation gift. F
Chancellor Robert M. Berdahl
congratulated Ng at the College’s
commencement ceremony last May.
14
|
12/5/01
5:02 PM
Page 15
Anthony Levandowski
spent some 250 hours
building and
programming his
prize-winning
BillSortBot robot.
Students solve
Bay Area problems
ould a floating runway at San
Francisco International Airport
solve its perennial congestion
problems? Can the Oakland Public
Library expand without disturbing the
surrounding community? How would
an artificial reef reduce erosion at San
Francisco’s Ocean Beach?
Seniors and graduate students in professor Robert Bea’s “CEE 180: Construction, Maintenance and Design of
Civil and Environmental Engineered
Systems” class were challenged to come
up with answers to these questions for a
class project last spring.
“Each team was responsible for choosing a panel of consultants from industry,
government, and faculty,” says Bea.
“Then they had to develop a formal
engineering report, build a physical scale
model, and make a formal presentation.”
The team investigating a floating runway for the San Francisco International
Airport took into account the elevation
due to tidal cycles as well as earthquake
shifts, and addressed environmental
impacts such as dredging and filling,
which could disrupt marine life.
The Oakland Library team analyzed a
City of Oakland feasibility study for
renovation. Their analysis led them to
conclude that adding an additional level
to the current historic building would
be most cost-efficient.
A third team conducted a multidisciplinary exploration into wave theory,
sediment transport, and coastal
engineering to analyze erosion problems
along San Francisco’s Ocean Beach.
They proposed the construction of
an artificial reef along the shoreline,
to mitigate erosion while maintaining
the aesthetic value of the beach as a
northern California tourist and surf
destination.
“The objective of this course is to
teach students how to use the results of
their education and reassess currently
engineered systems,” says Bea, who
teaches the popular course each spring. F
W
Student’s robot
takes top prize
nthony Levandowski always knew
his childhood passion playing with
Legos would pay off someday. Last
May, the third-year industrial engineering student led his classmates to gold at
the inaugural Java Technology Lego
MindStorms Challenge, a Sun
Microsystems-sponsored contest open
to Bay Area universities. The Berkeley
contingent’s winning entry was an
amalgamation of plastic Legos and silicon chips, dubbed BillSortBot, a petite
robot whose sole function is to sort
Monopoly money.
The aim of the contest was to build
an “innovative, cool robot” using a single Lego MindStorms Robotics
Invention System kit to be programmed
in Sun’s popular Java computer language. The commercially available
717-piece Lego kit consists of traditional
Lego bricks and gears along with a pair
of motors, a touch sensor, light sensor,
batteries, and a small microprocessor.
Ingenuity, design, parsimony, and
robustness were four factors the judges
took into consideration. But it was the
fifth factor – charm – that helped
BillSortBot steal the show.
“Adding the purple antennas and
large eyes gave it a little bit of character,” says Levandowski, who, along with
his teammates, was enrolled in an
introductory robot design and programming course taught by IEOR professor
emeritus Roger Glassey.
A
Competition from
the two other university teams was fierce.
UC Santa Cruz’s
SlugBot plunked out
melodies on an electronic piano while
Stanford’s MazeBot
scanned paper mazes and traced out
solutions. But the BillSortBot played
tough, earning its creators the grand
prizes – leather jackets emblazoned
with the Java logo and “Java-enabled”
golf putters tricked-out with a microprocessor that analyzes your swing
and enables you to compete in online
putting tournaments.
When loaded with a pile of
Monopoly funny money, BillSortBot
peels bills one at a time from the stack,
using its light sensor to determine the
color of the money by measuring the
intensity of the light reflected off the
paper. If the bill is the color the user
has instructed the robot to sort out, it is
spit into one bin. All other colors drop
into another bin.
“Most robots out there are just for
entertainment, but we wanted to solve a
real problem,” Levandowski says. While
he admits that piles of mixed-up
Monopoly money may not be a pressing concern for most, it does vividly
illustrate an ongoing challenge in industrial engineering – sorting parts on
assembly lines. Indeed, the toughest
mechanical problem the team faced was
getting the robot to maneuver the small
paper rectangles reliably.
Levandowski, who used just 300
Lego pieces in creating his robot, plans
to enter BillSortBot in future
MindStorms competitions.
“I was just in Italy and the family I
stayed with played Monopoly,” says
Levandowski, a native of Belgium. “I
showed BillSortBot to them and they
were impressed that this was the kind of
research I get to perform in college.” F
Forefront Fall 2001
|
15
12/5/01
5:02 PM
Page 16
Student Gazette
Engineers place
third in business
plan contest
n undergraduate student and
faculty member from engineering
were on the third-place team
chosen last spring in Berkeley’s third
annual Business Plan Competition,
organized by MBA students at the
Haas School of Business.
The three winning teams announced
last April shared more than $90,000 in
cash and prizes.
“The quality of the plans was
extremely high,” says Michael Powell,
managing director of Sofinnova
Ventures and a final round judge. “I
would have taken any one of these
teams to my partners.”
TruVideo, a wireless video infrastructure company, which included engineering undergraduate Greg Chew,
electrical engineering professor Avideh
Zakhor, as well as three Haas MBAs,
won the third prize of $10,000.
TruVideo offers superior digital image
quality over broadband compared to
existing technologies.
The second prize of $25,000 went
to biotechnology venture Aprotea
Biochips, which aims to enhance drug
discovery with its rapid and easy-to-use
protein measurement system. First place
went to RAPT Technologies, which has
developed a dramatically faster and
more cost-effective technology for
etching and polishing optical and semiconductor materials. RAPT’s winning
technology is 10 to 10,000 times faster
than existing technologies and operates
at atmospheric pressure.
By bringing ventures led by Berkeley
students and alumni in touch with
Silicon Valley’s community of entrepreneurs, venture capitalists and technology
companies, competitions such as this
serve as a springboard for the campus’
most innovative ideas and technologies.
To date, finalists of the competition
have secured more than $95 million
in funding. F
A
16
|
Rust takes center stage at student fair
ast spring, materials science and
engineering professor Fiona Doyle
held a corrosion party and drew a
packed house of students.
No Tupperware gathering, the students in Doyle’s “MSE 112: Corrosion
(chemical properties)” class examined
corroded disc brakes and car mufflers,
rusty sink strainer baskets and cooking
pots, corroded gardening shears and
screw driver bits, a rusting railroad
spike, a pitted bathroom mirror frame,
even some corroded aluminum foil that
had unwittingly hosted a molding wad
of refried beans for some 30 days.
Divided into teams to present their
final projects, Doyle’s students analyzed
the mechanisms of corrosion – from
crevice corrosion and galvanized corrosion, to high-temperature corrosion,
L
environmental and atmospheric corrosion to biologically-induced corrosion
– and suggested ways to prevent it.
“Why corrosion?” said Jonathan
Petrie, who was part of the student
group looking at galvanic corrosion,
where two different metallic materials
come in contact with each other.
“Corrosion is a billion-dollar industry,
so it’s a good thing to know about.
And you see it everywhere from bridges
to kitchens. There’s even corrosion
in space.” F
T O P : Fiona Doyle and students Ricardo Fernandez (right) and Evan Rege analyzed stress
corrosion cracking on structural welds on a threaded bolt washed ashore on the rocks at the
Berkeley Marina.
M I D D L E : Students got into the spirit of corrosion with a wide range of rusted objects and posters
on view at the fair.
B O T T O M : MSE major Leona Miller was part of a group of students at the spring corrosion fair
whose task was to examine biologically-induced oxide film growth. Her project focused on a pair of
silver-plated copper gaskets used for ultra-high vacuum systems, found in a long-vacant lab at
Lawrence Berkeley National Laboratory. Miller analyzed the thin oxide film residue found on the
gaskets, which grew where fingerprints introduced biological contamination.
12/5/01
5:02 PM
Page 17
High-flying Berkeley students search out
a better way to cut bone loss in space
or a brief time last February,
Just for fun, each group
Berkeley undergraduate Diana Chai
reserved a few parabolic
was her own guinea pig. Strapped
dives for floating and tumto a treadmill in a NASA research
bling around the plane, an
plane, she calmly jogged in place as the
experience Chai compared
KC-135 executed a series of zero-G
to the Drop Zone ride at
dives 50,000 feet over central Texas.
Great America.
“It was amazing, the best experience
“I’m still on a high from
ever,” says Chai, now a senior majoring
the trip,” she says. As for the Berkeley bioengineering student Diana Chai running on a treadmill in
simulated weightlessness aboard a NASA plane.
in bioengineering. “And I didn’t even
experiment, preliminary
throw up.”
Based on laboratory experiments with
results indicate it was a success.
Chai and three other Berkeley stusimulated reduced gravity, Kram and his
“This was a very challenging project
dents participated in a special NASA
Berkeley colleagues recently showed that
to pull off, but they did it, thanks to an
program that gives college students
runners could increase peak impact forces
enormous amount of help from NASA
access to one of its unique assets, a
while using only a moderate downward
people,” says Rodger Kram, a former
research plane – often referred to as the
pull if, at the same time, another rubber
Berkeley assistant professor of integra“vomit comet” – that simulates the
band pulled them forward.
tive biology who served as their faculty
weightlessness of space.
“The idea is, if you could combine a
adviser. “This project not only may
The NASA Reduced Gravity Student
moderate downward pulling force with
benefit NASA and astronauts, it also
Flight Opportunities Program started in
this forward pulling force, they’d get the
gave the students a great experience.
1995 out of NASA’s Johnson
same kind of impacts that you’d need to
They were totally charged up.”
Spaceflight Center in Houston. Chai
stimulate the bones,” Kram says.
Chai and Rudner first got excited
and her co-scientists
In an article in the May 2001 issue of
about zero-G experiproposed to test an
the Journal of Biomechanics, Berkeley
ments while taking a
improvement to the
graduate student Young-Hui Chang,
course called “Mars by
treadmills astronauts
Hamerski, and Kram provide convinc2012,” taught by former
regularly pound in
ing evidence that this forward-pulling
NASA engineer Larry
space to prevent bone
harness works. The airborne experiment
Kuznetz. After presentloss and potential
was the first microgravity test of this
ing a class paper about
injury. Without such
hypothesis, and it confirmed what
simulating reduced gravhigh-impact exercise,
Chang and Kram had predicted.
ity on Earth, Kram sugastronauts can lose as
Staff members with the NASA progested they propose an
much as two to three
gram
seemed intrigued by the students’
experiment for the
Bev Guo works the treadmill aboard the
NASA research plane, as Chris Hamerski
percent of their bone
experiment, according to Kram. “This
NASA program. The
enjoys the pleasures of zero gravity.
mass per week.
project is going somewhere,” he says.
two teamed up with
The team spent two weeks last
“It’s not very fancy, but it seems to be
Guo and Hamerski to write a proposal.
February at Ellington Field near
one of the more promising solutions to
The idea behind treadmills in space is
Houston setting up their experiment
bone loss during long-term space flight.”
to mimic the pounding and leg stresses
for two flights on the same Boeing KCAs for the students, they’re captivated
astronauts would experience while
135A used to train astronauts. During
by space. Rudner has just enrolled at
walking or running on Earth, in hopes
their first series of 30 zero-G dives, each
Baylor College of Medicine, where he
of preventing the bone deterioration
30 seconds long, Chai and Lanny
hopes to become a flight surgeon, and
seen on long space flights.
Rudner, a 2000 graduate in integrative
Hamerski, who now attends UC San
The problem, says Kram, now in the
biology, were the guinea pigs, running
Francisco’s medical school, says he
Department of Kinesiology and Applied
at 6.5 miles per hour while strapped to
would find it “awesome” to some day
Physiology at the University of Colorado,
a borrowed treadmill. A day later, Chris
practice medicine in space.
Boulder, is that today’s treadmills are not
Hamerski, a 1999 graduate in molecuChai, who plans to pursue an M.D.
very effective, primarily because they rely
lar and cell biology, and Bev Guo, then
or a Ph.D., is hooked too. “I want to
upon awkward and uncomfortable ruba molecular and cell biology senior, flew
find another project and fly again,”
ber bands to pull astronauts down onto
another series of tests.
she says. F
the treadmill as they run.
N A S A P H OTO
N A S A P H OTO
F
Forefront Fall 2001
|
17
12/5/01
5:02 PM
Page 18
Faculty Highlights
Faculty awards
and honors
E professor Arun
Majumdar was
named to receive the
prestigious 2001 Gustus L.
Larson Memorial Award
from the American Society Arun Mahundar
of Mechanical Engineers
(ASME) International. The award recognizes outstanding achievement in
mechanical engineering. Majumdar will
receive the award at the International
Mechanical Engineering Congress and
Exposition in New York City. He is the
third ME professor to receive the
award, along with professors Chang-Lin
Tien and Boris Rubinsky.
Van P. Carey, professor of ME,
received the State University of
New York at Buffalo’s Clifford C.
Furnas Memorial Award, presented
annually to a distinguished alumnus. Carey was named for his
Van P. Carey career “as an outstanding scholar
and researcher who has generated
a prodigious number of papers, books,
and patents.”
ME professor Paul
Wright, associate dean for
distance learning and
instructional technology,
was named to receive the
Paul Wright
Society of Manufacturing
M
Engineers Education Foundation’s 2001
M. Eugene Merchant Textbook Award,
for his book, 21st Century
Manufacturing, published by Prentice
Hall, Inc. The award recognizes
author(s) of a first-edition manufacturing textbook published in North
America judged outstanding by the
review committee.
Ken Goldberg, associate
professor, IEOR/EECS,
received the Major
Educational Innovation
Award from the
Educational Activities
Ken Goldberg
Board of the Institute of
Electrical and Electronics Engineers
(IEEE). The award recognizes IEEE
members who have distinguished
themselves for outstanding innovation
in an educational field appropriate to
the mission of the IEEE. Goldberg
was named “for his pioneering work
on Internet robotics and the influence
that this has had on the education
in robotics and advanced technologies
at large.”
Christos Papadimitriou,
C. Lester Hogan Professor,
EECS, and associate chair,
computer sciences division,
received a special award for
making the most influential
Christos
worldwide contribution to Papadimitriou
the foundations of computing by a scientist of Greek origin. The
In Memoriam
K
urt Samuel Spiegler, professor emeritus in mechanical engineering, died
in his home in El Cerrito on May 17, 2001. He was 80.
An expert in the field of desalination, Spiegler joined the Berkeley faculty
in 1964, and retired in 1978.
Spiegel earned his master’s degree and Ph.D. in chemistry from Hebrew
University in Jerusalem in 1942 and 1944, respectively. He began his
research on making fresh water out of salt water at the Weizmann Institute
of Science in Rehovot, Israel, and continued at the Massachusetts Institute
of Technology and eventually at the Sea-Water Conversion Laboratory at Berkeley.
From 1953-59, before coming to Berkeley, Speigler was section head of the physical geochemistry wing of Gulf Research and Development Company from 1953-59. He then returned
to Israel to teach and also served as head of the inorganic and general chemistry department
at the Israel Institute of Technology in Haifa until 1962, when he moved back to the United
States to take a position as a project scientist at Pratt & Whitney Aircraft.
A widely published author and co-author of more than 70 research papers, Speigler also
wrote two books on desalination. Both are considered classics in the field. In 1995, Speigler
received an Achievement Award from the International Desalination Association for his
“profound influence on the science and engineering of desalination.”
Speigler is survived by his wife, son, daughter, stepdaughter, and his brother. A service was
held for him last summer in Richmond, California. F
18
|
award is given on an ad-hoc basis by
the Greek Computer Society (GCS)
and the Council of the Computer
Technology Institute (CTI).
Also this year, Papadimitriou was
among eleven Berkeley faculty members
named as fellows of the American
Academy of Arts and Sciences. The
Berkeley fellows are among 185 fellows
and 26 foreign honorary members elected this year to membership in the academy for their contributions in fields ranging from math to medicine, computer
science to literary criticism and from
public affairs to the performing arts.
New members were inducted in ceremonies at the House of the Academy in
Cambridge, Mass., in October. F
Tien to receive NAE
Founders Award
ormer Chancellor and University
Professor Emeritus Chang-Lin Tien
was selected by the National
Academy of Engineering (NAE) as this
year’s recipient of the NAE Founders
Award. The award was presented at the
Academy’s annual meeting in early
October in Washington, D.C.
Tien, current holder of the NEC
Distinguished Professorship of
Engineering, joined the mechanical
engineering faculty in 1959, and served
as the seventh chancellor of Berkeley,
from 1990-97. He is being recognized
“for his pioneering research in gas thermal radiation, thermal insulation, and
microscale heat transfer, as well as for his
leadership in education for youth
around the world.” Tien’s research in
heat transfer and thermal science contributed to the safety of high-rise buildings during fires, the design of insulating tiles for the Space Shuttles, and
emergency core cooling systems for
nuclear reactors.
Tien, who retired in July, is currently
on leave due to a continuing medical
condition.
The Founders Award was established
in 1965 to recognize an Academy member who has made lifelong contributions
to engineering and whose accomplishments have benefited the people of the
United States. The award consists of
a gold medallion and a certificate. F
F
12/5/01
5:02 PM
Page 19
Alumni Affairs
Engineering Short Courses
Lifetime EAS membership for all
Berkeley engineers
eaching out to Berkeley engineering alumni has always been central
to the mission of the Engineering
Alumni Society (EAS) and its northern
and southern California Boards of
Directors. EAS recently broadened its
reach even further.
Beginning July 1, 2001, the annual
membership dues, formerly paid by
EAS members, were discontinued.
With this change, all alumni and current students of the College of
Engineering automatically become lifetime members, enjoying numerous benefits offered through the Engineering
Alumni Society.
Among the many services offered to
alumni is the mentorship program,
R
which brings together current students
and alumni mentors for a mutually
rewarding relationship. Alumni can also
reconnect with the College through
events that take place on campus as well
as in their communities. In addition,
the College will roll out new electronic
services via the College Web site for all
engineering alumni in the coming year.
Online benefits will include lifetime
e-mail forwarding, a comprehensive
alumni directory, and career development tools.
For more information about the
Engineering Alumni Society and its programs, please call 510/643-7100, or visit
www.coe.berkeley.edu, and click on
“Alumni and Friends.” F
For a full list of courses offered
by UC Berkeley Extension visit
www.unex.berkeley.edu
JANUARY
24-25
28-2/1
MPEG-4 and MPEG-7 Multimedia
Standards, SF
Silicon Processing for the VLSI
Era, SF Airport
FEBRUARY
2&9
4-6
11-15
13-14
25-27
28-3/1
Methodologies and Fundamentals
of High-level ASIC Design,
Fremont
Data Communications: From
Basics to Broadband, SF Airport
Process Integration for Submicron
IC Technologies, SF
Digital Signal Processing:
Principles and Applications,
Redwood City
Switch Mode Power Conversion,
SF Airport
Plasma Etching and Reactive Ion
Etching, SF Airport
MARCH
6-7
11-12
20-22
25-27
Silicon Valley faculty forum
A faculty forum and networking event, “Berkeley in
Silicon Valley: New Directions in Chemistry and
Engineering,” drew nearly 300 participants last June
to the Santa Clara Marriott Hotel. Sponsored jointly by
Berkeley’s Colleges of Engineering and Chemistry, the
event was designed to highlight cutting-edge work in
the two fields, especially in bio-MEMS, biomaterials,
and the miniaturization of electronics.
Digital Telecommunications
Networks, SF Airport
Semiconductor Process Control
for Yield and Reliability, SF Airport
IP/ATM Networks, SF
Financial Engineering, SF
C L O CK W I S E , F RO M L E F T:
Engineering dean A. Richard
Newton (at the podium) and
chemistry dean Clayton H.
Heathcock (not pictured) welcomed
participants to the June event.
Stephen Fodor, Affymetrix, Inc.
president and chief executive
officer, at far left, who presented
the keynote address on genomics,
visits with Daniel A. Pitt, former
Nortel Networks vice president,
at far right.
Engineering and chemistry graduate students presented poster sessions during a morning session.
Forefront Fall 2001
|
19
12/5/01
5:02 PM
Page 20
Alumni Affairs
Alumni honored for stellar service
T
hree engineering alumni were honored this fall as recipients of the 2001
Distinguished Engineering Alumnus Award from Cal’s Engineering Alumni
Society (EAS).
This year’s recipients are ME professor in the graduate school Werner Goldsmith,
ME ’49, an expert on the engineering mysteries behind impact and wave propagation; ME professor emeritus C.D. Mote, Jr., ME ’59 ’60 ’63, president of the
University of Maryland and a pioneer in the field of biomechanics; and Loring A.
Wyllie, Jr., CE ‘60 ‘62, senior principal and chairman of the board of Degenkolb
Engineers and an international leader in seismic-resistant structural design. Each
is profiled on these pages.
The awards honor alumni for their achievements and service to the engineering
profession, the University, and the community.
Due to the tragic events in September 2001 in New York and Washington D.C.,
the awards banquet originally scheduled for September 13 at the Claremont
Resort Hotel in Berkeley was postponed until February 23, 2002. For details, visit
www.coe.berkeley.edu and click on “Alumni and Friends,” or call 510/643-7100.
Werner Goldsmith:
Expert on the mechanics
of collision
erner Goldsmith
wrote the book
on impact.
Penned in 1960 and
recently reprinted,
Goldsmith’s seminal
book Impact – analyzing the mechanics of car crashes,
refinery explosions, football injuries,
and head trauma – was the first text to
scientifically systematize the mechanics
of collision and remains the premier
work in the field.
For more than half a century,
Goldsmith has explored and uncovered
the mechanical engineering mysteries
behind impact and wave propagation,
and, most recently, projectile penetration of targets and traumatic biomechanics. A registered mechanical and
safety engineer for the State of
California, Goldsmith was called as an
expert witness in the Rodney King
beating case. Frequently, he provides
expert opinion on litigation concerning
the protective capabilities, or lack thereof, of motorcycle, bicycle, and sports
helmets. And his collaborations with
W
20
|
neurosurgeons, while he served as chair
of the Head Injury Model Committee
of the National Institutes of Health in
the late 1960s, pioneered modern medicine’s understanding of head injuries.
Born in Dusseldorf, Germany in
1924, Goldsmith was the only member
of his family to escape Nazi Germany.
He immigrated to the United States in
1938. After completing his undergraduate studies at the University of Texas in
just three years, Goldsmith earned a
master’s degree in mechanical engineering in 1945 – the same year he became
a U.S. citizen.
After two years as an engineer with
Westinghouse Electric Corporation and
an instructor at the Universities of
Pittsburgh and Pennsylvania,
Goldsmith entered Berkeley’s mechanical engineering department, earning his
Ph.D. in 1949.
Goldsmith authored or co-authored
more than 200 scientific papers before
reaching his current faculty post as
Professor in the Graduate School. A
dedicated educator who has supervised
35 Ph.D. dissertations and 45 M.S.
theses at Berkeley and elsewhere,
Goldsmith continues to inspire devoted
graduate students at Berkeley more than
12 years after his official retirement.
With seemingly unending energy, he
completed a book in 1997, Mechanical
Engineering at Berkeley, The First 125
Years, tracing the rich history of his
alma mater.
Since 1951, Goldsmith has served as
a consultant and mechanical engineer
to the U.S. Navy Weapons Center at
China Lake, California, studying and
helping stabilize missile trajectories.
Most recently, he served as a member of
a National Research Council assessing
the efficacy of the Materials and
Weapons Directorate of the Army
Research Laboratories.
Goldsmith has received myriad honors and awards. In 1994, in honor of
his 70th birthday, an entire issue of the
International Journal of Impact
Engineering was devoted to his work. In
1996, he received the prestigious
Berkeley Citation. And that same year,
UCLA held a three-day summer
symposium in his honor. In 1997,
Goldsmith became an honorary
member in the American Society of
Mechanical Engineers International.
C.D. Mote, Jr.: Visionary
biomechanical engineer
n object in motion,
from a whirling
buzzsaw to a tumbling skier, tends to stay
in motion. In the case
of C.D. “Dan” Mote,
so does the man whose
illustrious career started with groundbreaking research into dynamics, vibrations, acoustics, and biomechanics, and
led finally to the presidential chair of a
major East Coast university.
Mote’s prolific work over the last
three decades is outlined in more than
300 publications and the patents he
holds in the U.S., Norway, Finland, and
Sweden. His research began with studies
on the dynamics of gyroscopic systems,
specifically wood saws. In 1971, Mote
isolated the distinct series of problems
faced in his unique work, founding a
field of research called “Dynamics of
Axially Moving Materials,” still a popular topic for scientific symposiums.
A
12/5/01
5:02 PM
His development of stability theories
for rotating plates forms the foundation
of today’s thinner circular saw blade
design, improving productivity while
reducing wood cutting noise. Mote’s
findings have directly led to improved
design in other rotating systems as well,
including computer disk drives and the
machinery used in the paper and textile
industry.
Since the mid-1970s, Mote has also
been a world leader in the field of biomechanics, especially as related to skiing
injuries. The applications of his work
evaluating bone and ligament strength
under dynamical stresses, combined
with his deep analyses of skis and bindings, have arguably prevented a multitude of broken limbs on the ski slopes.
Time and time again, Mote’s insightful research has been acknowledged
with prestigious awards and top honors,
including Berkeley’s Distinguished
Teaching Award in 1971 and the
Berkeley Citation in 1998. In 1997, he
was elected to Honorary Membership
in the American Society of Mechanical
Engineers International. And in 1998,
he was elected to the National Academy
of Engineering and received the
Humboldt Prize by the Federal
Republic of Germany.
Beyond his research endeavors, Mote
is a distinguished academic leader. After
earning his B.Sc., M.S. and Ph.D.
degrees in 1959, 1960, and 1963 from
Berkeley, he held several positions in
the field of mechanical engineering,
including an assistant professorship at
the Carnegie Institute of Technology. In
1967, he returned to Berkeley as a faculty member in mechanical engineering. He chaired the department from
1987 to 1991.
As chair, Mote recruited half the
department’s faculty and raised the program to a number one ranking in the
National Research Council review of
graduate program effectiveness.
Following his tenure as chair, he
became Vice Chancellor of University
Relations at Berkeley, and held the
FANUC Chair in Mechanical Systems.
As president of the UC Berkeley
Foundation, he designed and led a
Page 21
seven-year capital campaign that ended
last year with a record $1.44 billion
raised for the campus.
In 1998, Berkeley proudly, yet sadly,
said goodbye to Mote when he became
president of the University of
Maryland, College Park, and was
appointed the university’s Glenn L.
Martin Institute Professor of
Engineering.
“Dan Mote is the ‘model’ engineering
educator and scholar,” wrote a former
Ph.D. student. “He is an exceptional
classroom teacher and mentor, who
does fundamental research of industrial
relevance.”
Loring A. Wyllie, Jr.: World
leader in seismic design
o matter where in
the world the
earth starts shaking, Loring A. Wyllie
is quick on the scene
to do “earthquake
reconnaissance.”
Throughout his more than 36-year
career as a structural engineer, Wyllie
has studied crumbled structures in
Manila, San Fernando, Managua,
Chile, Soviet Armenia, and Japan to
analyze how buildings stand and fall
when the earth moves. After the disastrous Kobe quake in 1995, Wyllie
rushed to Osaka to inspect the damage
via helicopter and car almost immediately after the tremors.
A structural engineering graduate of
Berkeley, Wyllie is senior principal and
chairman of the Board of Degenkolb
Engineers, a seismic engineering firm
he joined in 1964. Under Wyllie’s
leadership, Degenkolb specializes
in the seismic evaluation, retrofitting,
and upgrading of monumental and
historic buildings.
For a sense of the scope of Wyllie’s
engineering prowess, one only need
look around the Berkeley campus. In
1980, he performed a seismic safety
assessment of all major buildings on the
University of California’s nine campuses, initiating the establishment of the
University Seismic Safety Policy. His
N
engineering and design services are
behind the seismic strengthening inside
the Cesar E. Chavez Student Center,
the Doe Library, McCone Hall, and
University House, among other local
buildings.
Outside the University of California,
Wyllie’s expertise has been employed in
the seismic strengthening of many landmarks, including two of San Francisco’s
finest architectural works: the Ferry
Building and St. Patrick’s Catholic
Church. In 1999, St. Patrick’s project
won a Preservation Design Award from
the California Preservation Foundation.
An international leader in seismic
resistant design, Wyllie has been called
into service by the State of California
and the federal government. He has
consulted for the State Seismic Safety
Commission to determine which stateowned buildings should be first in line
for seismic rehabilitation and he serves
as chair of the Provision Update
Committee of the National Earthquake
Hazards Reduction Program, which
drafts the seismic design provisions
behind national building codes.
Wyllie’s field experience is as dynamic
as the buildings he studies. Notably, he
was co-leader of the American team of
engineers and scientists sent by the
Earthquake Engineering Research
Institute to Chile in 1985 and Soviet
Armenia in 1988 to study the devastating earthquakes there.
A career-long involvement with the
American Concrete Institute (ACI)
includes participation in the Technical
Activities Committee that oversees
new developments in concrete design
and construction, and sets building
code requirements for reinforced
concrete construction throughout the
United States.
In 1990, Wyllie’s achievements were
honored throughout the broad discipline of engineering with his election to
the National Academy of Engineering.
The accompanying citation lauded
Wyllie “for important improvements
in earthquake engineering through
development of structural design
requirements incorporating lessons
from on-site investigation.” F
Forefront Fall 2001
|
21
12/5/01
5:02 PM
Page 22
College Support
Berkeley students learn
about high-tech start-ups
from Silicon Valley CEOs
n innovative program that blends
academic training with hands-on
industry experience at Silicon
Valley start-ups has been launched by
Berkeley’s College of Engineering with
the financial backing of a leading
Silicon Valley venture capital firm.
The Mayfield Fund, headquartered
in Menlo Park, California, committed
$1.5 million to fund the UC Berkeley
Mayfield Fellows Program.
Under the program, Berkeley
graduate students from the College
of Engineering, the Haas School of
Business, and the School of Information Management & Systems will
work as summer interns at venturebacked high technology firms in Silicon
Valley. It is anticipated that most of
the internships will be with information
technology firms.
A
Volunteers offer challenge match
I
n an effort to boost alumni participation,
Annual Fund alumni volunteers who
work with the College of Engineering
have pledged their own matching funds as
a challenge to alumni to support the
Berkeley Engineering Fund. The College
has more than $100,000 to gain if alumni
meet the challenge.
The volunteers will personally match firsttime alumni gifts to the Berkeley
Engineering Annual Fund, dollar for dollar,
up to $100. If you’ve made a gift to the
Annual Fund in the past, any increased portion of your gift this year will be matched
up to $1,000.
“Every gift counts, no matter what the
amount,” says Robert Garrow, EE ‘65, the
Annual Fund Alumni Volunteer who initiated the challenge match.
Volunteers hope in the process to
increase awareness about alumni participation rates, which serve as a measure by
which grant-making foundation and corporations gauge alumni satisfaction.
Additionally, university guidebooks and
publications such as U.S. News and
World Report use alumni giving rates
as the sole criterion to measure alumni
satisfaction when rating the quality
of institutions. F
4
22
||
BB ee rr kk ee ll ee yy EE nn gg ii nn ee ee rr ii nn gg
“I don’t believe any other university
offers its graduate students such rigorous training in starting new high tech
ventures, from both a business and a
technology perspective,” said A.
Richard Newton, dean of the College of
Engineering and a partner in the
Mayfield Fund.
“Add to that the opportunity to work
directly for the CEO of a high-tech startup as part of the academic experience,
and we have created something truly
extraordinary for our students,” he said.
The first group of UC Berkeley
Mayfield Fellows was announced last
May, four each from the College of
Engineering and the Haas School, all
with extensive technical training and previous work experience in high technology.
The new fellows are Tom Barber,
Doug Giffin, Joan Godfrey, Diego
Groiso, Chunlong Guo, William Jiang,
Michelle Khine, and Steve Schuman.
Noting the blend of engineers and
MBAs, Newton added, “This program
builds on one of the greatest strengths
of UC Berkeley, namely the rich collaboration that can be found everywhere
between our technical and our business
programs.”
In addition to the summer internships, UC Berkeley Mayfield Fellows
participate in intensive classroom work,
intended to blend the practical experience gained through their internships
with a series of graduate seminars on
technology and entrepreneurship.
The Mayfield Fund has made the
$1.5 million commitment to UC
Berkeley as part of its support of the
Center for Information Technology
Research in the Interest of Society
(CITRIS). CITRIS is being created as a
focal point to apply advances in information technology to the solution of
society’s most critical needs.
“Mayfield is excited by the opportunity to participate with UC Berkeley in
a program that will enrich the entrepreneurial experience for graduate students,” said Michael Levinthal,
Mayfield Fund general partner.
“The continual success of start-ups
that have flowed from UC Berkeley to
the Bay Area and beyond is exceptional,
and Mayfield is proud of its association
with this process. The CITRIS aspect of
Engineering gifts
Private funds are vital to Cal’s excellence in
engineering. Here the College recognizes new
pledges and gifts received between May 1
and August 7, 2001. Gifts and pledges from
individuals ranged from $30,000 to $1 million.
Corporate gifts of $100,000 or more are
also listed.
We are grateful to our donors for their support
of Berkeley engineering.
New Major Gifts and Pledges
Dado and Maria Banatao
Dean’s Academic Priority Fund
William S. Floyd, Jr., IEOR ‘56
Hearst Memorial Mining Building
Charles A. Grant, EE ‘66 ‘71
Founder’s Fund for the College of Engineering
Andrew S. Grove, ChE ‘63
Paul and Stacy Jacobs, EECS ‘84 ‘86 ‘89
Paul and Stacy Jacobs Distinguished Professorship
in Engineering
Dr. Kuang-Lu Lee, EE ‘85
Burton and Deedee McMurtry
Estate of A. John Macchi, CE ‘36
A. J. Macchi Bears Restoration
James D. van Hoften, CE ‘66
Organizations
Ericsson Radio Systems
Intel Corporation
Mayfield Fund
Nortel Networks
Sony Corporation
Sun Microsystems
the program is especially exciting, given
the crucial role new technologies must
play in addressing the critical publicsector needs of the California economy,” he said.
CITRIS research will focus on applying the campus’ best minds in information technology, engineering, sociology,
business, law, education and related
fields to solving some of the state’s
toughest quality-of-life problems. F
12/5/01
5:02 PM
Page 23
2000-01
B
ERKELEY
ENGINEERING
FUND
A
N N U A L
R
E P O R T
12/5/01
5:02 PM
Page 24
Berkeley Engineers
Love a Challenge
W
hen called to a challenge, Berkeley engineers don’t
flinch. Sometimes the call is for sophisticated imaging
devices to help detect disease, or perhaps for intelli-
gent transportation systems that reduce traffic and pollution. But
sometimes the challenge has less to do with engineering practice, and
more to do with supporting the high-quality educational programs
that helped these engineers launch their
careers. Either way, graduates of Berkeley’s
College of Engineering tend to answer
both calls with finesse and constancy.
24
|
12/5/01
5:02 PM
Page 25
Volunteers
2000-01
B ERKELEY E NGINEERING F UND
B OARD OF D IRECTORS
This year, two unique and historic matching fund opportunities gave Berkeley graduates
the chance to rise to the occasion. The Center for Information Technology Research in the
Interest of Society (CITRIS) and the Annual Fund’s Chairman’s Sweep Challenge took center stage in the College’s ongoing efforts to support innovative research and increase unrestricted funds for critical areas, such as faculty recruitment and retention, student aid and
programs. These efforts brought to fruition unprecedented fundraising achievements during fiscal year 2000-01.
Success in 2001 can be measured simply in the impressive results of CITRIS, a research
partnership between four UC campuses, the state of California, and 20 corporate and individual partners. Over the past year, nearly $170 million from private sources was pledged to
the initiative. And in July of this year, Governor Gray Davis and the state legislature funded
the first-year allocation of $20 million, the first installment of a five-year, $100 million
commitment for the project.
The Berkeley Engineering Fund, too, charted new territory with a new level of fundraising. Chaired by Jim van Hoften, CE ’66, the Fund topped its $1.5 million goal with the
assistance of a final push “Sweep Challenge.” Many Berkeley engineering alumni and
friends responded to the call to match van Hoften’s $100,000 challenge match – a challenge to match every dollar of new and increased gifts of $100 and more with 50 cents.
In addition to these unprecedented challenge funds, the College continued to increase
critical endowment funds, which help to attract and retain excellent faculty members and
support students through programs and financial awards. During fiscal year 2000-01, the
College added a number of new scholarship and fellowship funds to support outstanding
young students in engineering. Berkeley engineering also enhanced its ability to recruit and
retain talented faculty through six new distinguished professorships in the departments of
electrical engineering and computer sciences and bioengineering.
With special events last spring (pictured at left), the Berkeley campus and College of
Engineering paused to celebrate the many donors and friends who made the recently completed Campaign for the New Century a success, and who continue to demonstrate their
steadfast commitment to excellence in teaching and research.
Celebrating the Close of a Successful Campaign
F
RO M
TO P
L E F T
C L O CK W I S E
—
The Berkeley campus honored donors to the Campaign
for the New Century at a gala event in April, in
Zellerbach Auditorium. Festivities included music and
dance performances, poetry readings, a keynote
address by Chancellor Robert M. Berdahl, and, of
course, a visit from Oski.
Jack and Lynne Lloyd, ME ‘59 and Humanities ‘59, who
recently funded a distinguished professorship, feted
some of the College of Engineering’s top supporters in
their Orinda home last summer. Pictured is Dean
Richard Newton, left, visiting with Simon and Hilda
Wong, EE ‘76.
Dean Richard Newton and Petra Michel hosted a
luncheon at their Woodside home, honoring alumni and
friends who helped the College of Engineering surpass
its fundraising goals for 2000-01. Guests included, from
left, Jessie Chua, Statistics ‘61, a recent major donor to
the Berkeley Engineering Fund with her husband H. T.
Chua, EE ‘61; Pehong and Adele Chen, CS ‘88, recent
donors of a distinguished professorship in EECS; and
long-time volunteers and donors Mary and Arthur Fong,
EECS ‘43.
Attending the Woodside event were, from left, Jack
Lloyd, ME ‘59; BEF general chair Bill Floyd, IEOR ‘56;
Barbara Silverman, Sociology ‘60, who recently
endowed a distinguished professorship in bioengineering with her husband Arnold Silverman, EECS ‘60 ‘61;
and Executive Vice Chancellor and Provost Paul R. Gray.
William S. Floyd, Jr., IE ’56
General Chair
H. T. Chua, EE ’61
William F. Craven, EE ’60 ’61
Peter S. Cross, EE ’69 ’74
Leah J. Fera, EECS ’95 ’97
Julia A. Gee, ME ’82
Professor Ronald Gronsky,
MSME ’74 ’77
Richard E. Hall, CE ’38
Karin U. A. Koch, CE ’96 ’97
Lester John Lloyd, ME ’59
Melissa Matsumoto, BioE ’02
Elena F. Meroth, CE ’91
Henry J. Miedema, CE ’61 ’63
Dean A. Richard Newton, EE ’78
Melissa Nidever
Michael J. Raffetto, ME ’57
Robert D. Sanderson, IEOR ’66 ’70
Barbara B. Simons, EECS ’81
Allen C. Slutman EE ’57
Dana Tribula, MSME ’86 ’90
Cheryl A. Valentine, ME ’79 ’91
James D. A. van Hoften CE ’66
Thomas B. Worth, IEOR ’72 ’76
M AJOR G IFTS C OMMITTEE
Chair
Laurence B. Boucher, EE ’73
William S. Floyd, IEOR ’56
Professor Paul R. Gray
Richard E. Hall, CE ’38
Professor David A. Hodges,
EE ’61 ’66
Paul R. Larson, ME ’52
John S. Lewis, ME ’68
Michelle McClellan
Melissa Nidever
A NNUAL F UND A LUMNI
V OLUNTEERS
James D. A. van Hoften, CE ’66
Chair
Dana Tribula, MSME ’86 ’90
Vice Chair
Kenneth E. Beebe, CE ’54 ’55
Theodore M. Christensen, CE ’51
Thomas R. Flynn, CE ’39
Robert A. Garrow, EE ’65
John H. Henderson, ME ’42
Professor David A. Hodges,
EE ’61 ’66
Paul R. Larson, ME ’52
Henry Lurie, ME ’57 ’58 ’61
Warren A. Minner, CE ’51
Lester R. Mitchell, ME ’56
Lawrence E. Peirano, CE ’51 ’52
Larry L. Russell, CE ’70 ’80
Robert D. Sanderson, IEOR ’66 ’70
Allen C. Slutman, EE ’57
Douglas W. Tsui, EECS ’78
A n n u a l R e p o r t 2 0 0 0 - 01
|
25
12/5/01
5:02 PM
Page 26
Donors 2000-01
B ENJAMIN I DE W HEELER
S OCIET Y
The Benjamin Ide Wheeler
Society recognizes donors who
have included the Berkeley
campus in their estate plans.
Here, the College of Engineering
recognizes individuals who
have planned gifts for the
College, either in their wills,
by joining the pooled income
fund (similar to a mutual
fund), or by setting up trusts
that also provide income for the
donors or their beneficiaries.
These gifts are typically funded
by cash, bonds, securities, real
estate, or other negotiable commodities; they often result in a
named endowment fund to
benefit the College in perpetuity.
Such planned gifts allow donors
to make substantially larger
donations than might otherwise
be possible, sometimes providing
life income to the donors and
income or estate tax savings.
The names listed here include
the College of Engineering donors who announced planned
gifts prior to July 1, 2000.
For information on including
the College of Engineering in
your estate plans — or if you
have done so and would like
to become a member of the
Benjamin Ide Wheeler Society
— contact Melissa Nidever,
Assistant Dean, College
Relations, College of
Engineering, University of
California, Berkeley, CA
94720-1722; 510/642-2487.
Robert L. Andresen, ME ’40
Donald E. Beck, EE ’56,
Physics ’58 ’65
Alice M. Berlin
Dr. Vladislav Bevc, EE ’57 ’58 ’61
Raymond M. & Malvine K.
Bickerstaff, CE ’38
Arnold D. Bogart, ME ’43
Don & Marilyn Boland
Mr. & Mrs. Howard W. Brod,
CE ’33
Mr. & Mrs. Arthur H. Brown,
PE ’39
Martin Brown, ME ’62
Edmond B. Bussey Jr., EE ’49
Bob Caniglia, CE ’66
Mr. & Mrs. Robert L. Caracristi
Carlton E. Cherry, EE ’30 ’31
26
|
Charles V. Childers, EE ’58
Montford Cook,
Public Health ’52
LeRoy & Eileen Crandall, CE ’41
Lawrence E. Crooks,
EE ’71 ’73 ’79
John L. & June F. Cunningham,
EE ’46 ’48
Sherman L. & Patricia S. Davis,
ME ’55
Robert K. Dean, IE ’47
Andrew A. Dinos, CE ’53
Walter E. Elkington, MT ’57 ’62
Richard W. Evans
Morley S. Farquar, ME ’58
Thomas P. & Lillian M.
Faulconer, ME ’40
Thomas E. Flowers, CE ’48 &
Koko Fujita
William A. Flowers, EE ’47
William Sharp Floyd Jr., IE ’56
Art & Mary Fong, EE ’43
M. Irene Fossati
Mr. & Mrs. Howard R. Friesen,
EE ’50
Barry I. Gamble, EE ’64
James O. Gierlich, CE ’46
Gary H. Glaser, CE ’66 ’67 &
Christine Miller
Hugh O. Gourdin, ME ’41
Professor Emeritus & Mrs. R. C.
Grassi, ME ’41 ’44
William F. Griffiths, ME ’58
Isabel A. Haglund
Kenneth & Beverly Haughton,
ME ’52 ’64
Mr. & Mrs. John H. Henderson,
ME ’42
Mrs. J. Howard Henry
Sterling F. Higgins, EE ’50
James B. Hill, CE ’58
Kenneth E. Hill, PE ’38 ’40
Otto Hoefler, CE ’39
David P. & Marily A.
Howekamp, ME ’66,
Business ’77 &
Letters & Science ’66
Elizabeth L. Hughes,
Alice A. Jarrett
Ted Kamins, EE ’63 ’65 ’68
Alfred Kaufman, CE ’41
Peter A. Krenkel, CE ’56 ’58 ’60
Mrs. George R. Kribbs
Gerald J. Laughlin, ME ’59
Philip M. Lawhead
Thomas E. Laycook, EE ’63
Thomas K. & Margaret C. Lew,
Architecture ’61
Professor Emeritus T. Y. &
Margaret Lin, CE ’33
Alvon F. Lowe, EE ’29
Edison D. Lowe, EE ’38
Royd E. Lund, CE ’43
Catherine S. Ma, Chemistry ’75,
CE ’77
A. John Macchi, CE ’36
Gordon R. MacPherson,
ME ’32 ’33
Mr. & Mrs. Baxter C. Madden
Jr., ME ’31 ’40
Cecil J. & Lois C. Mark, CE ’51
Mrs. Charlotta P. Martinelli
James & Lucile Masson, ME ’42
Edgar O. & Edith M. May,
CE ’40
Charles A. McCullough, CE ’48
Ruth S. McFarland
Eric A. Mohr, ME ’49,
CE ’70 ’77
James H. Morehouse,
ME ’66 ’68 ’70
Lester H. Mullen, ME ’37
Ira Nagin
Thetis Hero Pappas
Wayne & Christine Paulsen,
ME ’70
Eugene W. Pearson, ME ’43
Lawrence E. Peirano, CE ’51 ’52
Dr. Robert S. Pepper,
EE ’57 ’58 ’61
Dr. & Mrs. David A. Pessel,
EE ’70 ’74
Richard A. Presby
Bruce Ragan, EE ’49
David & Judy Redo, EE ’61
Mr. & Mrs. Louis W. Riggs Jr.,
CE ’48
Charles & Jeanne Robertson,
EE ’34
Thomas & Joan Rohrer, ME ’52
Mr. & Mrs. Barton W.
Shackelford, CE ’41
Jeanne M. Sheffield
Lowell H. Shifley, CE ’57 ’61 ’67
E. Brian Smith, CE ’54
Michael H. Smith, EE ’73,
Business ’76, EE ’76 ’94
Gordon W. Stark, CE ’43
Wayne R. Sutton, EE ’48
J. W. Talbert
Seth Teller, CS ’90 ’92
Mrs. George C. Tenney
Harold E. Thomas, ME ’40
Robert G. Tingley, EP ’56
R. Rhodes & Elizabeth Trussell,
CE ’66 ’67 ’72
Victor Welge, EE ’33
Stanley E. West, ME ’51
George C. White
D. Brian & L. Suzanne Williams,
ME ’82 ’84
William C. Williams, EE ’48
Samuel E. Wilson, ME ’61 ’66
Charles Woodson
Gene & Billie Yeager, CE ’48
Professor Emeritus Lotfi A.
Zadeh
C ALIFORNIA B ENEFACTORS
Lifetime gifts of $1 million or
more to the Berkeley campus
Khalid A. Alireza, IE ’71 ’72
Dado & Maria Banatao
Dr. Morris Chang
Pehong Chen, CS ’88
H. T. & Jessie Chua, EE ’61 &
Statistics ’61
Margaret Liu Collins,
Chemistry ’65
Mrs. Richard C. Dehmel
Richard Dehmel
William S. Floyd Jr., IE ’56
Kevin A. Fong, EE ’76
EE ’50
Coleman F. Fung, IEOR ’87
Mrs. John H. Henry
William A. Hewlett,
Psychology ’72, CS ’72
Elizabeth L. Hughes, Letters &
Science ’42
Paul & Stacy Jacobs, EE ’84,
EECS ’86 ’89
Mrs. George R. Kribbs,
James Lau,
Applied Mathematics ’81, CS
’81 & Katherine Lau, CS ’88
David D. & Joanne Lee,
EE ’83 ’86 ’89
Mr. & Mrs. Lester J. Lloyd,
ME ’59
Dr. Gordon E. Moore,
Chemistry ’50
John Neerhout Jr., ME ’53
Kikuo Ogawa, EE ’42
Dr. Robert S. Pepper,
EE ’57 ’58 ’61
T. Gary & Kathleen Rogers,
ME ’64
Martin S. Ross,
Ronald V. & Lila J. Schmidt,
EE ’66 ’68 ’71
Sehat Sutardja & Weili Dai,
EE ’85 ’88 &
James C. Sha, EE ’76
Mr. & Mrs. Arnold N.
Silverman, EECS ’60 ’61
Robert H. C. Tsao
Dr. David N. K. Wang, MS ’76
Professor Emeritus &
Mrs. Eugene Wong
Steve Wozniak, EECS ’86
B LUE
AND
12/5/01
G OLD S OCIET Y
Lifetime gifts of $500,000 or
Mr. & Mrs. Robert L. Andresen,
ME ’40
Alice M. Berlin
Laurence B. Boucher, EE ’73
Dr. Ming-Jeh Chien, EE ’71 ’75
Bill & Kay Craven, EE ’60 ’61
Dr. & Mrs. Franklin W. Dabby,
EE ’69
James & Karen Dao, EE ’60
Mr. & Mrs. Robert J. Feibusch,
CE ’61
M. Irene Fossati
Jean H. Hall
Mr. & Mrs. Kenneth E. Hill,
PE ’38 ’40
Mr. & Mrs. Robert A.
Hoolhorst, CE ’39
My T. Le, EECS ’96
Professor Emeritus T. Y. &
Mrs. Margaret Lin, CE ’33
Nicholas W. McKeown,
EECS ’92 ’95
Burton & Deedee McMurtry
Mrs. Byron L. Nishkian
Mr. & Mrs. Robert D. Ogg,
ME ’48
Lawrence E. & Mary Peirano,
CE ’51 ’52
Thomas & Joan Rohrer, ME ’52
Fred & Claire Sauer, ME ’44 ’47
Mr. & Mrs. Roger J. Sippl,
CS ’77
Michael H. Smith, EE ’73 ’76 ’94,
Business ’76
Roger A. Strauch
Mr. & Mrs. Porter E.
Thompson, PE ’39
Dila Wang
Robert C. Wilson, ME ’41
1868 S OCIET Y
Lifetime gifts of $100,000 or
Eugene E. Andersen, ME ’48
Dr. & Mrs. Arthur G. Anderson
R. E. Bathgate, ME ’61 ’64
Mr. & Mrs. Edward M. Benson,
PE ’42
Carl Bergard, EE ’58
Kenneth C. Berner, CE ’64 ’68
Raymond M. & Malvine K.
Bickerstaff, CE ’38
Wolfram Blume
Marilyn Boland
Ann S. Bowers
Alma V. Brosio
William F. & Teresa A. Brusher,
ME ’41
J. Peter Cahill, CE ’45
John E. Cahill Sr.
Richard F. Cahill
Chang Yong & Florence Chen,
EE ’80
5:02 PM
Page 27
Robert K. Cheng, ME ’72 ’74 ’77
Eric Cho, EE ’70 ’73
Jennifer D. Cook
Eric C. Cooper, EECS ’82 ’85
Peter S. & Melanie J. Cross, EE
’69 ’74
Mr. & Mrs. James T. Curry Jr.,
CE ’59
Sherman L. & Patricia S. Davis,
ME ’55
John T. & Catharine Dawson,
ME ’38
Mrs. Burgess Dempster, Latin ’29
Mrs. James W. Dieterich
Professor Robert W. Dutton &
Mrs. Carol A. Walsh-Dutton,
EE ’66 ’67 ’70
The James & Velma Emmi
Foundation
Thomas E. Flowers & Koko
Fujita, CE ’48
Midge & Tom Flynn, CE ’39
Frank S. Foote Jr. & June M.
Foote
Carl Fricke
David Friedman & Paulette
Meyer, CE ’75
Katherine Fung, CE ’84 ’85
Douglas W. Gester, CE ’74 ’75
Professor Emeritus & Mrs. R. C.
Grassi, ME ’41 ’44
Professor & Mrs. Paul R. Gray
Harold D. Gross, CE ’49
Mr. & Mrs. Andrew S. Grove,
ChE ’63
Kim & Tracy Hailey
Shawn & Jan Hailey
Richard & Elizabeth Hall, CE ’38
Michael J. Halloran, ME ’62 ’65,
Law ’65
Clara-Belle Hamilton
Kenneth & Beverly Haughton,
ME ’52 ’64
Paul & Martha Hertelendy,
ME ’65
Professor Emeritus David A. &
Mrs. Susan S. Hodges,
EE ’61 ’66
Thomas G. Holmes, EE ’49
Edmund E. Hoskins, EE ’36
William G. Howard Jr., EE ’67
Mr. & Mrs. Chih H. Hsu
Walter Hsu, CE ’78 ’79,
Business ’86
Dr. Min-Yu Hsueh, EE ’75 ’76
’80 & Dr. Yi-Yuan Wang,
EECS ’92
Richard F. Huelskamp, ME ’52
Nissen A. Jaffe, MT ’59 ’62
Richard & Margaret Karn, CE ’50
John D. & Marlene Kniveton,
PE ’48
Dr. Stephan J. Krieger, EE ’59,
Physics ’63
Floyd & Jean Kvamme, EE ’59
Rolland A. Langley, EP ’53
Paul & Vivien Larson, ME ’52
Eugene Lee
Mrs. George Leitmann, ME ’56
James D. Levine, Conservation
of Natural Resources ’78, CE ’79
John & Elizabeth Lewis, ME ’68
Yuh Z. Liao, EE ’80
Louise & John Linford, ME ’47
Peiching Ling, MS ’83
Cornell C. Maier, EE ’49
Alexandra Malozemoff
Cecil J. & Lois C. Mark, CE ’51
John A. Martin, CE ’42
Mr. & Mrs. Michael S.
Marzalek, EE ’69
James R. Masson Jr., ME ’42
Edgar O. & Edith M. May,
CE ’40
Harley M. & Margaret E.
McCamish, ChE ’48
Ruth S. McFarland
Diven & Marian Meredith,
ME ’36
John H. Meyer, EE ’42,
Business ’76
James H. Morehouse,
ME ’66 ’68 ’70
Donald E. Morris
Dean A. Richard Newton,
EE ’78 & Ms. Petra Michel
Mr. & Mrs. Gust Nichandros,
EE ’39
Richard S. O’Brien, EE ’39
Shigeru Omori, CE ’51 ’59
Mildred Oppenheim
Col. Thomas R. Ostrom, CE ’44
Yunni Pao
Dr. & Mrs. Mihir Parikh, EP ’69,
EECS ’71 ’74
Dr. & Mrs. David A. Pessel,
EE ’70 ’74
Daniel A. Pitt & Claudia Bloom
Scott & Mary Alice Ramsden,
ME ’48
David & Judy Redo, EE ’61
JoAnne E. Roberts, Political
Science ’49
Charles & Jeanne Robertson,
EE ’34
Elizabeth Rothschild
Robert D. & Shirley A.
Sanderson, IEOR ’66 ’70
Professor Alberto SangiovanniVincentelli
Faye E. B. Saul
Michael T. Scott, CE ’70
The Peter & Carolyn Shea
Foundation
Raymond L. Shurtz, ME ’59,
Business ’61
Awtar Singh, CE ’66
Allen C. & Roberta M. Slutman,
EE ’57
* 5+ years consecutive giving
** 10+ years consecutive giving
*** 15+ years consecutive giving
**** 20+ years consecutive giving
Engineering
Majors
Below is a key to abbreviations
used throughout this honor roll of
engineering donors.
AE Agricultural Engineering
BioE Bioengineering
CE Civil Engineering
CEE Civil & Environmental
Engineering
CEMS Civil Engineering/
Materials Science & Engineering
CENE Civil Engineering/
Nuclear Engineering
ChE Chemical Engineering
CM College of Mechanics
CR Ceramic Engineering
CS Computer Science
EE Electrical Engineering
EECS Electrical Engineering &
Computer Sciences
EEMS Electrical Engineering &
Computer Sciences/
Materials Science
EENE Electrical Engineering &
Computer Sciences/
Nuclear Engineering
EMS Engineering Mathematics &
Statistics
EP Engineering Physics
ERE Earth Resources Engineering
ES Engineering Science
IE Industrial Engineering
IEOR Industrial Engineering &
Operations Research
IENE Industrial Engineering &
Operations Research/
Nuclear Engineering
ME Mechanical Engineering
MEMS Mechanical
Engineering/Materials Science
MENE Mechanical
Engineering/
Nuclear Engineering
MFG Manufacturing
MI Mining Engineering
MM Mining & Metallurgy
MN Mineral Engineering
MS Materials Science &
Engineering
MSCM Materials Science &
Engineering/
Chemical Engineering
MSME Materials Science &
Mineral Engineering
MT Metallurgy
MX Mineral Technology
NA Naval Architecture
NAOE Naval Architecture &
Offshore Engineering
NE Nuclear Engineering
NECM Nuclear Engineering/
Chemical Engineering
PE Petroleum Engineering
PR Process Engineering
A n n u a l R e p o r t 2 0 0 0 - 01
|
27
12/5/01
Edmund B. Smith, CE ’54
George J. & Mary Jo Stathakis,
ME ’52 ’53
John H. Steele
Mrs. Bradford J. Stimpson,
English ’48
Professor Emeritus Michael
Stonebraker
Daniel M. Tellep, ME ’54 ’55
Mrs. Donald G. Tronstein
Ralph Ungermann & Heather
Cady, EE ’64
James D. van Hoften, CE ’66
Helen Huggins Wells
William C. Williams, EE ’48
Alexander M. Wilson, MT ’48
Gene & Billie Yeager, CE ’48
Jacques S. Yeager, CE ’47
D EAN ’ S C OUNCIL
Annual donors of $50,000 $99,999 to the Berkeley
Engineering Fund
Anonymous
Khalid A. Alireza, IE ’71 ’72*
Arthur L. Anheier, ME ’41
Dado & Maria Banatao
Chang Yong & Florence Chen,
EE ’80
Pehong Chen, CS ’88
Margaret Liu Collins,
Chemistry ’65
Bill & Kay Craven, EE ’60 ’61***
Professor Robert W. Dutton,
EE ’66 ’67 ’70 & Mrs. Carol A.
Walsh-Dutton
William S. Floyd Jr., IE ’56***
Charles A. Grant, EE ’66 ’71
Paul & Stacy Jacobs, EE ’84,
EECS ’86 ’89
David D. & Joanne Lee,
EE ’83 ’86 ’89
John & Elizabeth Lewis,
ME ’68**
Yuh Z. Liao, EE ’80
The Estate of Margaret M. Lucas
A. John Macchi, CE ’36***
John A. Martin, CE ’42
Burton & Deedee McMurtry**
John Neerhout Jr., ME ’53***
Col. Thomas R. Ostrom,
CE ’44**
Martin S. Ross,
Fred & Claire Sauer,
ME ’44 ’47**
Sehat Sutardja & Weili Dai,
EE ’85, ’88 &
Letters & Science, ’84
George C. Tenney, EE ’20
James D. van Hoften, CE ’66*
Professor Emeritus & Mrs.
Eugene Wong
Simon & Hilda Wong, EE ’76
28
|
5:02 PM
Page 28
D EAN ’ S C IRCLE
Engineering Fund
Mr. & Mrs. Andrew S. Grove,
ChE ’63**
Dr. & Mrs. Mihir Parikh, EP ’69,
EECS ’71 ’74
Robert D. & Shirley A.
Sanderson, IEOR ’66 ’70*
Professor Alberto SangiovanniVincentelli
D EAN ’ S F ELLOWS
Engineering Fund
Carl Bergard, EE ’58*
Wolfram Blume
George & Beverly Boyadjieff,
ME ’61 ’63***
Eric Cho, EE ’70 ’73*
Lawrence E. Crooks,
EE ’71 ’73 ’79**
Mr. & Mrs. Robert J. Feibusch,
CE ’61***
EE ’50*
Gilbert H. Gates
Harold D. Gross, CE ’49
Richard & Elizabeth Hall,
CE ’38***
John Barton Hopkin
Nancy A. Hopkin
Dr. Min-Yu Hsueh, EE ’75 ’76
’80 & Dr. Yi-Yuan Wang,
EECS ’92
John Chi-Hung Hui, EE ’77,
EECS ’83
The Estate of Dorothy D.
Johnson
Haideh Khorramabadi, EE ’77 ’85
Floyd & Jean Kvamme, EE ’59
Anna O. Lee
Homer H. & Mabel W. Lee
James W. Meakin
Laurence W. Nagel,
EE ’69 ’70 ’75*
Mildred Oppenheim
Margaret Hopkin Pinto
Daniel A. Pitt & Claudia Bloom
Professor Emeritus Egor Popov,
CE ’33
Lawrence Stark
George J. & Mary Jo Stathakis,
ME ’52 ’53
Daniel M. Tellep, ME ’54 ’55*
Mr. & Mrs. Porter E.
Thompson, PE ’39*
The Estate of Robert & Norma
Thorson, CE ’29
Douglas W. Tsui, EE ’78 &
Vanessa S. Lam
Professor Emeritus & Mrs. John
R. Whinnery, EE ’37 ’48***
Douglas & Nancy Wolcott,
AE ’57***
Steve Wozniak, EECS ’86*
Joseph & Peggy Zee
D EAN ’ S A SSOCIATES
Engineering Fund
Anonymous
Mr. & Mrs. H. Bernard
Bornhorst, CE ’58
Katherine H. Buckelew
Brian T. Button, EECS ’82*
Sesha Chary
Brian A. Childers, EECS ’82 ’85
John M. Coil, CE ’59 ’61***
Malcolm R. Currie, Physics ’49,
EE ’52 ’54*
Nora Hsu Davis, EE ’76
John T. & Catharine Dawson,
ME ’38****
Gary & Lanaya Dix,
ME ’63 ’65 ’71**
Susan Ellis, EECS ’81 & Mark
Linton, CS ’81 ’83*
Zaki M. A. Farsi, CE ’73
Douglas W. Fuerstenau***
The Estate of Jerrold M. Gayner,
CE ’32
Douglas W. Gester, CE ’74 ’75***
Professor Paul N. Hilfinger
Mr. & Mrs. Kenneth E. Hill,
PE ’38 ’40**
Professor Emeritus David A. &
Mrs. Susan S. Hodges,
EE ’61 ’66***
Robert & Beth Janopaul,
CE ’51***
Carl W. Johnson, CE ’41**
Clay & Cheri Johnson, EE ’81*
Professor Homayoon Kazerooni
John D. & Marlene Kniveton,
PE ’48***
Augustine J. Kuo, EECS ’89
John R. Lamberson
Alan V. Levy, MT ’50 ’52
Delaney H. & Walter B.
Lundberg
Boguslaw & Barbara
Marcinkowski
Roy C. Marker, ME ’43 ’48
Kartikeya Mayaram, EECS ’88*
Harley M. & Margaret E.
McCamish, ChE ’48**
Brian & Catherine Messenger,
EECS ’82 ’84*
Warren & Marjorie Minner,
CE ’51***
Dr. & Mrs. C. D. Mote Jr.,
ME ’59 ’60 ’63**
Gordon F. Newell***
Gen. Charles D. Ostrom Jr.,
CE ’38***
Marcella Pickus
David & Judy Redo, EE ’61***
Elmer C. Robinson, IE ’49**
Elizabeth Rothschild**
Larry L. Russell, CE ’70 ’80
Sam Ruvkun, CE ’41
The Peter & Carolyn Shea
Foundation
Raymond L. Shurtz, ME ’59,
Business ’61*
Allen C. & Roberta M. Slutman,
EE ’57***
Mr. & Mrs. Harvard P. Stewart,
ME ’34***
Michael O. Strandberg
Edwin D. Yocky, ME ’40
D EAN ’ S S PONSORS
Engineering Fund
Robert C. & Margaret S.
Andresen, ME ’41***
Michael Barclay, Physics ’73,
EE ’74***
Max & Emyrita Bookman,
CE ’32**
William C. Broocks, EE ’43
Dorothy S. Champion
Ted M. Christensen, CE ’51***
LeRoy & Eileen Crandall,
CE ’41*
George & Susan Crow, EE ’66*
John L. & June F. Cunningham,
EE ’46 ’48***
Mr. & Mrs. James T. Curry Jr.,
CE ’59*
Gary S. Dodson, CE ’63 ’64
Robert & Jean Dolin, EECS ’77*
Philip & Marjorie Dunn, CE ’60*
Mr. & Mrs. Donald A. Fidler,
EE ’66
Midge & Tom Flynn, CE ’39***
David Friedman, CE ’75 &
Paulette Meyer*
Howard & Elizabeth Gong,
EE ’57**
Guy H. Harris, Chemistry ’37**
Miriam Heirshberg
Mark W. Heising, Physics ’80,
EECS ’83
Scott P. Hilton
Siu-Bun F. Ho, EE ’74 ’76 ’78 &
Mei Szeto
Lucy Hsu, EECS ’80
Elizabeth L. Hughes, Letters &
Science ’42**
Stanley O. & Madalyn E.
Hutchison, PE ’51*
Ted Kamins, EE ’63 ’65 ’68***
Professor & Mrs. Adib Kanafani,
CE ’67 ’69
Dr. Gunars Kemanis,
EE ’53 ’55 ’63**
Professor Emeritus Ernest &
Mrs. Bettine Kuh
12/5/01
5:02 PM
Page 29
Wilfried & Helen Langer,
CE ’52***
Paul & Vivien Larson, ME ’52***
Richard & Tatwina Lee
Professor Emeritus George &
Mrs. Doris Maslach, ME ’42
James R. Masson Jr., ME ’42****
Neal D. McBurnett, CS ’80
George & Sandra McCan*
Henry & Janet Miedema,
CE ’61 ’63
Janice & Kenneth Milnes,
EECS ’78 & EECS ’77**
Lester R. & Cosette P. Mitchell,
ME ’56 & Humanities ’57**
Professor & Mrs. J. W.
Morris Jr.***
Mr. & Mrs. Curtis K. Myers,
EE ’72, Business ’74*
Marie-Anne Neimat, CS ’74 ’79
& Andrei M. Manoliu*
Alan Nishioka, EECS ’90
Michael A. Olson, CS ’91 ’92
Robert T. O’Rourke, EE ’80
Lawrence E. & Mary Peirano,
CE ’51 ’52***
Chancellor Emeritus & Mrs.
Karl S. Pister, CE ’45 ’48***
Robert Piziali, ME ’65 ’66 ’70*
E. Donald & Gwen H. Reichert,
ME ’50, Business ’64
Leonard & Libia Robinson,
CE ’42*
Joseph & Charlotte Rodgers,
IE ’54 ’58*
Steven R. Schiller, ME ’79*
David G. Schutt, EE ’57**
Mr. & Mrs. Thomas L. Stelzner,
ME ’47***
Nancy S. Sweetland*
Nicholas Szabo, EECS ’76***
Roderic W. & Rita L. Thomas,
CE ’58***
Thomas E. & Laura S. Tietz,
MT ’44 ’51 ’54*
Dr. Abe Tilles, EE ’28 ’32 ’34
John M. Toups, CE ’49
Ralph Ungermann, EE ’64 &
Heather Cady
Douglas Weatherston, MI ’23
Alexander M. Wilson, MT ’48
Eugene Wong
Mr. & Mrs. Hubert W. Wong,
ME ’75 ’79*
R OBERT G ORDON S PROUL
A SSOCIATES
Engineering Fund
Anonymous
Ray S. Abu-Zayyad, ME ’61**
Dr. Hadi A. Akeel, ME ’66*
Mr. & Mrs. Robert L. Andresen,
ME ’40***
Erica Angelakos
Stanford S. F. Au, EE ’82
Walter H. Axelson, ME ’37
Carolyn & Stanley Backlund,
ME ’59 ’60***
John W. Ball, EE ’54**
Mr. & Mrs. C. Michael Barnes,
IE ’63
David E. & Roslyn J. Barnhart,
CE ’66 ’67***
Michael R. Bayer
Mrs. Scott Beamer*
Scott & Kathi Bean, ME ’87
Charles H. Beckett, ME ’46***
Kenneth E. Beebe, CE ’54 ’55
Gregory D. Beltran, IEOR ’78*
Professor Emeritus Arthur &
Mrs. Jane Bergen
Mr. & Mrs. Richard V. Bettinger,
CE ’47***
Mr. & Mrs. Eugene P. Binnall,
EE ’57 ’70**
Jerome Blair, EP ’66,
Mathematics ’68, Applied
Mathematics ’70
Fritz & Betty Boege, EE ’43
Robert W. Bosley
Karen & Frank Bowers, EE ’83**
Graeme & Susan Boyle, EE ’78
Mr. & Mrs. Allen E.
Broekemeier, EE ’51***
David & Patty Brown,
Humanities ’56***
Mr. Emil W. Brown, CS ’85 &
Dr. Mary E. O’Connor**
William F. & Teresa A. Brusher,
ME ’41***
Mr. & Mrs. Arthur E. Burns III,
ME ’63*
Mr. & Mrs. Hamish M.
Caldwell, CE ’84*
Ramon F. & Hazel E. Cayot,
CE ’40
Baldwin & Eva Chan,
ME ’66 ’67, Business ’78***
Aparna Chatterjee, CE ’94
Bruce H. Chu, EECS ’93
Bing Quan & Amy Lee Chung*
William H. Clarke, CE ’54*
Jean M. Cline*
Marguerite Costanza
Philip J. Craner, ME ’40**
John Delos Crawford, EE ’78 ’79
Brian D. Cunningham, EEMS ’64
Peter B. Danzig, CS ’89 & Lara
Thomas
Percy B. Dawson, ME ’35***
Steve Deggendorf, EECS ’83,
Business ’86*
Gary C. Deis, CE ’75*
Mrs. Charles A. Desoer
Professor & Mrs. Thomas M.
Devine
Charles Franklin DeWolf, ME ’49
Dana C. Ditmore, ME ’63 ’66
Adrienne Dong, EECS ’83*
Stanley & Jane A. Dong,
CE ’57 ’58 ’62***
OF
GIVING
THE BENEFITS
Professorships boost faculty research
omputer science professor Susan Graham, recently named
to the Pehong Chen Distinguished Professorship, is using
her funding to advance a theme she has explored throughout her career: making it easier to develop software.
“This new funding gives us the opportunity to move faster, seizing ideas as they come up,” says Graham, whose specialties are
programming language design and implementation, and interactive software development. “The funding also makes it easier to
support undergrads by adding them to our team, and to invite visiting scientists to work with us, all of which is harder to do with a
conventional research grant.”
Lessening the reliance of text and typing by adding speech is key
to Graham’s research. “We’d like to reduce repetitive stress
injuries, and enable people to work at higher levels,” she says.
“When you type characters, you don’t think in terms of concepts.”
The professorship was established by Pehong Chen, CS ’88,
president, chair, and CEO of BroadVision, and a renowned expert
in new media software. Among numerous honors, Graham is a
member of the National Academy of Engineering and serves on
the President’s Information Technology Advisory Committee.
C
Anna Lijphart, EECS ’87 &
Brian Dougherty, EECS ’79
Richard I. Dowell, EE ’66 ’69 ’72*
Andrew & Rosemary DuBois,
ME ’50 ’61*
Bob & Sandy Dunning, ME ’62**
R. Terry Duryea, IE ’69*
Timothy S. Eitzen, ME ’75 ’78
Tim Enwall, EECS ’87 &
Hillary Hall
Bob Epstein, EE ’74 ’76 ’80 &
Amy Roth
Larry & Sherry Esvelt,
CE ’64 ’71***
Dr. & Mrs. Jerry L. Ethridge,
MENE ’78
Morley S. Farquar, ME ’58***
Robert D. Fenn, EE ’63**
Peter J. Filanc, CE ’75 ’76**
Linda Finco, CE ’82*
Gerry E. Finn, CE ’72 ’76
Professor Emeritus & Mrs. Iain
Finnie***
A n n u a l R e p o r t 2 0 0 0 - 01
|
29
12/5/01
Hanley T. Fong, CE ’54***
Col. & Mrs. Hayward Fong,
CE ’48**
Linda E. Foppiano, ES ’77**
Wendell B. Freeman, EE ’48***
Hari R. Garhwal
Jim & Terry Gaskill, EE ’64
’74***
John W. Gerhart, CE ’36*
Herbert Gerlach Jr.
William R. Gianelli, CE ’41*
Claire A. Gillette, MM ’39***
Jonathan Goodier, CE ’50**
Jan L. Goodsell, EE ’76
John T. Graff, CE ’43**
OF
Page 30
Professor Emeritus Martin &
Mrs. Selma Graham
Martin S. Greenblat, ME ’88*
William F. Griffiths, ME ’58
Anthony John Gschwend,
CE ’69 ’70
Donald & Barbara Guild,
ME ’48
Kirk & Kathy Hachigian,
MFG ’82
Kenneth J. Hansen, EE ’76
Professor Robert Harley
Michael P. Harney, EECS ’77
James P. Hartnett, ME ’54*
Dr. & Mrs. Raymond A. Heald,
EE ’65 ’72 ’75***
GIVING
THE BENEFITS
5:02 PM
Fellowships help graduate students thrive
or Hakim Weatherspoon, the Intel Master’s Fellowship was
more than just a way to pay for his education: it offered him
contacts and research opportunities with one of the leading
companies in his field.
“The fellowship was extremely helpful to me,” he says. “It gave me
financial stability so I could concentrate on my research and my
schoolwork, and it helped introduce me to people in the industry who
became my mentors.”
Last summer, after earning his master’s degree in computer science, Weatherspoon interned at the Intel Research Laboratory in
downtown Berkeley. “Working there allowed me to continue my
school research in an industry/research environment,” he says.
Weatherspoon spent much of his time at Berkeley working on
OceanStore, a global-scale storage system that allows users to reliably store information anywhere in the world. This fall, he’s back at
school as a doctoral candidate continuing to do research on archival
storage of information.
F
4 | | BBe er kr ke el el ey yE En ng gi ni ne e er irni ng g
30
Clyde C. Heasly Jr., EE ’48*
Larry & Barbara Heiller, CE ’68**
Mr. & Mrs. John H. Henderson,
ME ’42**
Charles E. Hepner, ME ’48*
Douglas J. & Carolyn D.
Higgins, Economics ’51***
Kenji Hirata, ME ’61***
Terence & Laura Holland,
CE ’74 ’83*
Mr. & Mrs. Thomas J. Holland,
CE ’84
Robert J. Holler, CE ’39
Lyman G. Horton, CE ’38**
David G. Hough, EE ’74 ’77*
Walter R. Howard, CE ’60*
Tso C. & Wen Hsieh
Ike C. & Anling W. Hsu,
ME ’73 ’76 ’80**
David T. Huang, ME ’78 ’79**
James R. & Sherri Hussey,
CE ’65 ’66***
Norman Hynding, CE ’33
Steve N. Hynding, CE ’63
Mark S. Isfeld, EE ’81 & Ruth
A. Schlotzhauer
Izu Iwamoto, EE ’56
Bert & Muriel N. Jameyson,
CE ’42**
Eugene P. Jarvis, EECS ’76***
Bruce H. Jeffress, ME ’73
Peter M. Joachim**
Barnard C. Johnson, CE ’54 ’57**
C. S. Johnson, EECS ’67
Donald F. Joost, ME ’43*
Richard & Margaret Karn, CE ’50
Professor & Mrs. Richard M.
Karp
William G. Kast, ME ’44**
Mrs. Edward C. Keachie,
Art ’32***
Richard W. Kelso, EP ’59
Peter & Annette Kerner
David & Kathy Kloss, ME ’85 &
CE ’85*
Jeffrey Krause, CS ’79 &
Deborah Wu*
Mr. & Mrs. Robert A. Krieger,
CE ’62***
Michael L. Kushner, EE ’60*
Wynne Kwee, EECS ’93
William & Ruby D. Lai,
ME ’52 ’58**
Professor Emeritus Edmund V.
Laitone, ME ’38***
Dr. Charles L. Larson, EP ’53***
Kenneth & Marilyn Lavezzo,
EE ’64***
Meng-Chi Lee, CE ’77 ’80
Robert N. Lee, NE ’77
Steven Leong, ME ’41*
Salomon & Eileen Levy,
ME ’49 ’51 ’53***
Thomas K. & Margaret C. Lew,
Architecture ’61*
Professor Emeritus & Mrs. Edwin
R. Lewis**
Yuh-Min Lin, EECS ’90
William J. Lindblad, EE ’51*
Sally Liu, EE ’81
Robert T. Loder Jr., EE ’79
Bonne C. Look, ME ’42***
Herbert Low, ME ’83**
James R. Low, EEMS ’69***
Richard & Ellen Lowenthal,
EE ’75*
Henry Lurie, ME ’57 ’61,
ES ’58***
Peter & Eve Lyman, ME ’57 ’63,
NAOE ’59***
Mr. & Mrs. Baxter C. Madden
Jr., ME ’31 ’40***
J. E. & M. Maledy, ME ’39***
Roberto Mancin, ME ’74 ’75**
Mr. & Mrs. John F. Mandrow,
EE ’49 ’51*
John W. & Dorothy K. Mark,
ME ’52 ’54,
History of Art ’74***
Dr. Keith Markolf, ME ’64 ’66 ’70
Dr. Jerzy H. Mazur, MS ’82
Earl McCune Jr., EE ’79*
Keith & Thelma McKinney,
IE ’51 ’56**
Marshall Kirk McKusick,
Business ’79, CS ’80 ’84*
John H. Meyer, EE ’42,
Business ’76***
Professor Emeritus & Mrs. James
K. Mitchell*
Richard Mizuno, IE ’83
Harry J. Moore, ME ’51*
Mr. & Mrs. Douglas C.
Moorhouse, CE ’50
Donald H. & Shirley J. Morris,
ME ’66 ’66
Dr. & Mrs. William M. Mueller,
EE ’50 ’53 ’58**
Mr. & Mrs. Robert A.
Muhlbach, ME ’67*
Alden & Jane Munson, ME ’66
Colin & Odette Murphy, EE ’76*
Richard J. Murphy, ME ’75*
Henry & Janice Newhall, ME
’61 ’63 ’66***
Harry H. Nickle, EP ’53
Levon & Maio Nishkian*
Erwin J. Ordeman, EECS ’78*
Dr. & Mrs. Gary Orgill,
CE ’74 ’78
John C. Orman, CE ’64 ’67
Walter & Judy Palen, ME ’74
’78 ’80*
Huo-Hsi Pan, ME ’54*
C. C. Pappas, ME ’47
Mrs. Joseph A. Pask**
Richard Passov, IEOR ’89
Joseph & Mi-Jung Penzien**
Horace Phillips, ME ’39*
Leo J. Pigozzi Jr., EE ’50*
John Praznik
Lyle V. Rains, EE ’73***
Les & Marcia Randall*
Dr. & Mrs. Yusef R. Rashid,
CE ’60 ’62 ’65***
12/5/01
5:02 PM
Page 31
EXPENDITURES BY SOURCE,
COLLEGE OF ENGINEERING, 2000-01
Richard B. Ravel, EE ’78
Linda C. Reid*
Herbert F. Richards, PE ’38***
Clarence E. Rinne, CE ’35***
Reed & Renee Robbins, CE ’45***
Michael K. Robinson, CE ’68
Professor & Mrs. Lawrence A.
Rowe, CS ’80**
Dr. & Mrs. Alfred S. Samulon,
EE ’68 ’74
Eugene & Marlene Sanders,
EE ’73 ’74 & EE ’71 ’73
Kenneth & Ritchie Saunders,
ME ’65*
Milton & Betty Schwartz,
CE ’47***
Professor Emeritus & Mrs. Alex
Scordelis, CE ’48***
Mrs. Ralph A. Seban, Letters &
Science ’39 ’40
John C. Sebastian, ME ’61 ’62***
Professor Carlo & Mrs. Greti
Séquin***
Mr. & Mrs. Barton W.
Shackelford, CE ’41***
Kenneth D. Shang, ME ’68 ’69***
Michael & Barbara Shepherd,
EE ’57*
Thomas W. Shepherd, ME ’50***
Richard L. & Frances F. Shuey,
EECS ’47, EE ’50***
William E. & Crowell F. Sinclair,
MI ’37
Denis & Debbie Slavich,
EE ’64***
George & Elena Smarandoiu,
EE ’75 ’78
Harold & Irwina Smith, EE ’51***
Tim & Sharon Smith, EE ’82*
Mark G. Soloway, EE ’86
Olga & William Spahn,
EECS ’90 ’92
Johnie M. & Sandra J. Sperinde
Rick L. Spickelmier, EECS ’83 ’89
Alan G. Stanford, EE ’60*
Jean M. Steidel*
Mr. & Mrs. John H. Sun, CE ’74*
Randall A. Tamura, EECS ’73**
Barry L. Thompson, EE ’86
Conrad T. Timpe, EE ’69*
Benjamin S. Ting, EE ’73 ’76*
Robert J. Toft, CE ’52*
Daniel E. Tom, EE ’75***
Yuk L. Tsang, EE ’74*
Yuh-geng & Margaret Tsay
Cheryl A. Valentine, ME ’79,
Business ’91****
Frank & Diane Vigilante,
EE ’57***
Professor Martin Wachs
A. Crew Waite, EP ’53*
Su-Ming Weng, EE ’75
Raymond M. Wille, ME ’62
D. Brian & L. Suzanne Williams,
ME ’82 ’84*
Roger & Molly W. Williams,
MT ’64 ’66
David N. Wilner, CS ’78 ’81
Professor & Mrs. Edward L.
Wilson, CE ’55 ’58 ’63
Howard & Miriam Wilson,
EE ’48 ’50***
Kenneth & Madelynne Wolfe,
CE ’42***
Grant & Wendy Wong, ME ’64,
Business ’76**
Robert T. Wong, CE ’71
Joan B. Woodard, ME ’82
Tom & Amy Worth, IEOR ’72,
Law ’76**
Professor Emeritus
Felix & Margaret Wu, EE ’72
Loring & Beverly Wyllie,
CE ’60 ’62
Mr. & Mrs. Neil Yarnell,
EE ’65 ’66***
Isami Yoshihara, EE ’62**
Paul & Elinor Youngdahl
Yang-Ho & Amy Yu***
S ATHER G ATE C LUB
Annual donors of $500 - $999
to the Berkeley Engineering
Fund
Anonymous
Robert C. Abrams, EE ’47*
Richard F. Adams, EE ’65 ’68**
Carlo E. & Eleanor Anderson,
EE ’33***
Fred M. Andres, IE ’78*
Margarita C. Ang, ME ’87
Mr. & Mrs. L. George
Ansolabehere, CE ’52
Chris & Robin Apple, EECS ’75**
Diane R. Armstrong
Robert H. & Doris J. Ausfahl,
CE ’39**
Gary E. Bacher, ME ’65*
Dennis F. Baker, MS ’78 ’83*
William T. Balch, CE ’49**
Mark W. Bales, EE ’80 ’82
Glenn & Anna Bates, EE ’39**
Rino & Beverly Bei, CE ’48***
Professor Stanley A. Berger*
Kenneth C. Berner, CE ’64 ’68***
Daniel A. Berry III, ME ’68*
Rodney H. Billingsley, PE ’51
Susan & Richard Blanco, EP ’90
& Physics ’90, ME ’95
Ralph B. Blodget, PE ’41
Ernest M. Bony, ME ’43**
Mr. & Mrs. John B. Bowker,
IE ’49
Pierre Breber, ME ’86*
Diana D. Brehob, ME ’82 ’85*
Dr. William B. Bridges,
EE ’56 ’57 ’62 & Linda J.
McManus**
Eugene F. Brown
Laura A. Brozowski, ME ’82**
Other
Gifts
State, general funds
Government contracts
millions of $
Government Contracts and Grants
74.6
State of California, General Funds
50.2
Private Gifts, Grants, Contracts, and Endowments
30.1
Other Funds
4.7
Total
159.6
SOURCES
COLLEGE
OF
OF
%
47
31
19
3
100
R E S E A RCH S U P P O RT,
ENGINEERING, 2000-01
Other
State
Federal
Private
Federal Government
Private Support
State of California
Other
Total
millions of $
54.7
24.1
23.5
4.0
106.3
A n n u a l R e p o r t 2 0 0 0 - 01
%
51
23
22
4
100
|
31
12/5/01
Richard K. Bruechert, CE ’59***
John A. Busco, EECS ’84
Mary T. Cao, ME ’73 ’74
Ronaldo N. Carpio, EECS ’95
Dr. & Mrs. William C. Chan,
EE ’70 ’71*
Daniel R. Chapman, MS ’98
Carl W. Chen, CE ’63 ’68
Ralph & Rosa Chern, EE ’82*
James H. Chiang, EECS ’80*
Barry L. Chin, MS ’75 ’83*
Yi Dan Esther Chung Chin,
EECS ’93*
Victor L. Chinn, IE ’56
Soung M. Cho, ME ’64 ’67*
Dr. & Mrs. Kang R. Chun,
ME ’69***
Andy Y. Chung, EECS ’72 ’73
Harold C. Coffee Jr., CE ’56
Robert W. Collins, CE ’55**
Michael J. Corley
Denise Lau, EE ’81 & Joe
Cortopassi, CS ’80, EECS ’81**
John Cragin, ME ’43
Robert & Barbara Crommelin,
CE ’49 ’55
Clifton Cullum, EE ’66*
Joy Dahlgren, Statistics ’56,
Public Policy ’77, CE ’92 ’94*
Brian & Lisa Davis, PE ’85
Jim Dickerson, EECS ’82**
Dr. & Ms. Timothy R. Dinger,
MS ’83 ’86
John & Kathy Dracup, CE ’66
Meena K. Duggirala, EECS ’85
David M. Ellement, EECS ’76
Frank G. Evans, EE ’78
Kareem G. Fawell, EECS ’94
John L. Fetter, EECS ’73***
Luis Figueroa, EECS ’73 ’76 ’78
Donald J. Finlayson, CE ’48***
Zelaine Fong, EE ’85, CS ’86***
Harold & Betty Forsen, EE ’65***
Thomas P. Frangesh, ME ’72*
Dr. & Mrs. Herbert A. Franklin,
CE ’62 ’70*
Norman Grant & Angela
Kasprzyk Gardner, EE ’74 &
CE ’74****
Albert & Nora Gee, EECS ’79 &
EECS ’79**
Homer T. Gee, EE ’73 ’74**
Julia A. Gee, ME ’82
Paul H. Gilbert, CE ’59 ’60*
Forrest R. Girouard, EEMS ’88
Professor Emeritus C. R.
Glassey***
Ben & Evelyn Glatt, EE ’50*
Kurt E. Golden, EE ’61*
Werner Goldsmith, ME ’49*
Donald M. Gray, EE ’41*
Russell H. Green, EE ’47
Albert C. Gribaldo, CE ’49***
Dr. & Mrs. Patrick M. Griffin,
CE ’71 ’72 ’80***
William & Sharon Gross,
ME ’49 ’51***
32
|
5:02 PM
Page 32
Mercedes L. Haroldson
Larry D. Hartsough,
MS ’65 ’69 ’71
Barry & Ann Haskell,
EE ’64 ’65 ’68***
Karl R. Hassur, ME ’81 ’83
John C. Hayes, EE ’85
John & Shirl Henderson,
CE ’42***
George V. Herrero, CE ’42***
Douglas Y. Higashi, CE ’85**
Jorge L. Hinojosa, IE ’69
Gary K. Hirakawa, EECS ’81**
Gilbert & Betty Hoffman,
CE ’53*
Daniel F. Horwood, EE ’62
David P. & Marily A. Howekamp,
ME ’66, Business ’77 &
Letters & Science ’66**
Walter Howell IV
James R. & Kristine S. Hunt
Robert J. Isberner, ME ’86*
Gordon M. Jacobs, EE ’77,
EECS ’89*
Maurice E. & Kathleen N.
Jacques, ME ’61 ’63***
Kevin James, EECS ’93
John M. Jeffryes, ME ’71*
Dr. Stanley H. Johnson,
ME ’62 ’67 ’73*
Jack M. Jones, MM ’40
Vili H. Kamhi, EE ’74
William R. Keesee, ME ’58**
Bruce R. Kendall,
EE ’67 ’69 ’74***
James R. Kilpatrick, EE ’48***
Paul J. Kirby, EE ’72
Robert W. Klessig, EE ’67 ’71*
Bob & Linda Kluber, ME ’78*
Lawrence R. Krahe Jr., ME ’72
Joseph & Bonnie J. Kroll,
CE ’34***
Sunil R. Kulkarni, ME ’93*
Mike Kupfer, EE ’85**
Scott Kuusinen, EECS ’93 ’94
Frank & Ancilla Kwok
Jim & Sue Langemak
James R. Larus, EE ’85, CS ’89
Philip A. Lathrap, ME ’47**
Vincent K. Lau, EECS ’83
Paul B. Lawrence, CE ’52
Choung Mook Lee, NA ’63 ’66
Dana I. Lee, EEMS ’88
Khoon Y. Lee, EE ’75**
Muo S. Lee, ME ’64 ’68
Craig & Donna Leidersdorf,
CE ’75***
Mr. & Mrs. Arthur T. Lewis,
CE ’54***
Mr. & Mrs. John P. Lindley,
EE ’51***
Hsin-Ting Liu, EECS ’00
Edmond D. Lock, EECS ’79,
EE ’82
Roald & Cynthia Lokken,
ME ’75, NA ’80***
Betty Look, EE ’71 ’72*
Frank Louie, EE ’74
Mr. & Mrs. Peter Loukianoff,
CE ’87, Business ’98
James W. Lucke, ME ’66 ’68 ’70
Peter M. Luk, EE ’75*
Sammy S. Lum, EECS ’77 ’79****
Ray & Kay Lundgren, CE ’50 ’54*
Maria L. Magana, EE ’73***
Grace Mah, EECS ’84
R. S. McCourt, CE ’79
Melva & Stuart McDonald, CS
’80, Mathematics ’80 ’85
Michael E. McGinley, CE ’66
Edwin K. McNinch, CE ’51**
James M. McWee, CE ’52***
Michael C. Megas, EE ’73
Brian M. Miller
Edward D. Mitchell, EE ’76*
Ronald L. & Sharon B. Mitchell,
ME ’57 ’61*
Sanjit & Nandita Mitra,
EE ’60 ’62*
Howard Mizuhara, CR ’59
Robert Ingemon Moe, CE ’57
Kristan Jon Monsen, EECS ’90*
James W. Moor, ME ’52**
Mr. & Mrs. Clyde N. Moore Jr.,
CE ’40*
Jack E. Morris, ME ’78
Andrew J. Mrizek, EE ’79
Professor Emeritus Richard &
Mrs. Joyce Muller
Dan & Doreen Nakamura,
EECS ’80**
Peter & Laurell Newberg, PE ’51*
Lung S. B. Ng, EE ’72,
EECS ’79*
Hang F. Ngo, ME ’82*
Shingo L. Nishikawa, EE ’69
Harold & Eleanore Nissen,
PE ’40***
Ronald P. Nordgren, ME ’62*
Fred & Verlayne Offenbach,
EE ’50
Kent A. & Jill E. Olsen, CE
’67***
Bert Y. Omi, EE ’75
Erik Ordeman, EECS ’76
Mr. & Mrs. Russell J. Page,
ME ’48 ’50**
Dr. James D. & Margret Palmer,
EE ’55 ’57***
Anthony C. Pan, EE ’72
Jacques & Ethel Pankove,
EE ’44 ’48**
Virginia J. Panlasigui, EECS ’76
Alexander J. Para, EE ’71
Bharat & Jaya Patel, EE ’78*
Henry Perez, ME ’72
Cynthia L. Perry, CE ’76 ’78**
Andrew M. Petsonk, EE ’76
Arthur & Marion Potter, CE ’40
Michael Rafferty, CE ’87
Tirumala R. Ranganath,
EECS ’71 ’79
Zoaib & Jumana Rangwala,
EE ’75
Edward E. Rinne, CE ’61 ’63**
Phil Rogers, IEOR ’66 ’69*
Mr. & Mrs. Thomas L. Rogers,
EE ’36
Michael D. & Trisni P. Ruslim,
IE ’76
Lewis W. Saxby Jr., ME ’45**
Stan & Nancy Saylor, CE ’54
Philip L. Scarff III, EE ’79
Bill Schick, ME ’57 ’58**
Charles Schlegel, IE ’58 ’59*
Marna Schnabel
Don Schreuder, CE ’65 ’67**
Professor Emeritus Virgil & Mrs.
Virginia Schrock, ME ’52***
Roger Scott, EE ’83 & Mary
Niepokuj*
Mark W. Semmelmeyer, EECS ’82
Mr. & Mrs. Mike Sentovich**
Mr. & Mrs. Niran G. Shah,
CE ’63
Bhagwat D. Sharma, EE ’72***
Earl L. Shea, ME ’49
Li Yen Shih, IE ’79 & Tracy S.
Chu*
Gary H. Shiomoto, ME ’76***
Jyuo-Min Shyu, EECS ’88
Bill & Eleanor Silcox, ME ’47***
William D. Sinclair, EE ’78***
Ashok Singhal, CS ’88 ’90*
Harry B. Skinner, M.D., Ph.D.,
MS ’67 ’70
Capt. Steven Slaton, ME ’70
Donald W. Smith, EE ’86*
Donovan E. Smith, IE ’47*
Chris Sorensen, EE ’69*
Thomas M. Stephens, EE ’42**
Mr. & Mrs. Farrel A. Stewart,
CE ’47
Donald E. Stiling, IE ’51 ’52**
John R. Stokley, ME ’67
Harold & Janice Stone,
EE ’61 ’63*
Burton C. Swenson, CE ’56
Kinyue H. Szeto, EE ’82*
Mr. & Mrs. Harry J. Talbot,
EE ’50
Lawrence Talbot*
Arnold K. Tam, EECS ’78
Munah F. Tarazi, CE ’79
Harold E. Thomas, ME ’40
Craig Thompson, CE ’84 ’86
Paul G. Tobey, EECS ’87
Gary & May Tsztoo, EECS ’82***
Joyce P. Tullock
Charles B. Turhollow, CE ’82**
Dr. Yihjye Twu, EE ’85**
Michael C. Van Fossen, IE ’83
Garry N. Vander Wende, CE ’60*
Benjamin F. Vickers, EE ’72
Herwig & Elisabeth von Morze
Terry J. Wagner, EE ’59 ’61 ’63
William Wagner, EE ’62*
J. Michael Walford, CE ’63*
Bruce W. Walker, CS ’68 ’69
Carl & Gerry Weinberg,
CE ’52 ’53**
12/5/01
5:02 PM
Page 33
Dr. & Mrs. Stephen B.
Weinstein, EE ’66***
Ken K. S. Weng, EE ’72
Richard & Margaret W. Werling,
IE ’57 ’60***
Professor Richard M. White**
Robert F. & Virginia Wildman,
CE ’47***
William C. Williams, EE ’48*
Stuart Williger, IE ’80**
Joseph S. Wong, ME ’80
Patrick P. Wong, IE ’48
Samuel T. Yanagisawa, EE ’42**
Peter I. Yanev, CE ’68
Edgar A. Yao Jr., Applied
Mathematics ’89, CE ’95
Anant M. Yardi, ME ’69
Edison F. Yee, EE ’72*
Mr. & Mrs. Walter Yeung,
ME ’54*
William K. Y. Yeung, CE ’81
Gordon Yip, EECS ’90
Gwynne & Mark Young, CS ’81
Stephen P. Young, EE ’82
Mr. & Mrs. Neng Jong Yu
Peter & Kristine Zaballos, EE ’82
C ARILLON C LUB
Annual Donors of $250 - $499
Fund
Anonymous
Gale L. Acker, IE ’58***
Mr. & Mrs. Ronald L. Ackley,
PE ’51
Uma & Pawan Aggarwal, IE ’69*
Soo-Myung Ahn, EE ’72
John A. Alden, ME ’42***
Rizwan Ali, IEOR ’86
Michael Allen, EE ’75*
Steven Allison, ME ’79*
Palaniswamy Ananthakrishnan,
NAOE ’91
J. P. Anderson, CE ’50**
James C. Anderson, CE ’69*
Kurt Anderson, ME ’82 ’85
Charles Andrews & Elin Quigley
Edward Aoki, EE ’59
Helen & Alan Appleford, CE ’51*
Fanny Armstrong, CS ’86
Burt Avery, ME ’44*
Jerry Bagnani, CE ’58*
Zoran Batchko, CE ’77 ’79
Lou Beck, CE ’53***
Dr. James M. Becker, CE ’73
Robert L. Bertini, CEE ’99
Ron T. Blanchard, CE ’85
Mark & Peggy Bley, CE ’79
Fred R. Brooks, ME ’41***
Bob & Bev Brooks, EE ’66 ’67*
Klaus & Lois Brown, CE ’74*
Gabe R. & Hildy F. Buis, EE ’64*
Gerald J. Burke, EE ’65 ’68*
Ed Burnell, EE ’51*
Michael F. Bybee, EE ’78*
R. A. Byrns, ME ’50
Domann L. Cadaing, EECS ’90*
Sean G. Callan, CEE ’98
Bob Caniglia, CE ’66**
Joshua J. Cantrell, EECS ’99
Frederick H. Carter, EE ’82
Carol Costanza Castro
Esmond Chi Yiu Chan,
CENE ’76 ’77, CE ’83*
Steven M. Chan, ME ’85
Jessica Chang, EECS ’88
Joseph Y. Chang, EE ’82
Tommy D. & Victoria G.
Chang, EE ’70
Dennis P. Chen, EECS ’96
Faustina Chen, EE ’85
James T. C. Chen, EE ’66 ’71
Joseph J. Chen, EE ’85*
Sam & Helen Chen, NE ’92
Joyce Chesnut
Eugene L. Cheung, EECS ’96
James Chik, ME ’86 ’87*
Dan Chitty, CE ’77 ’78
Tat C. Choi, EECS ’83
C. P. Christensen, EE ’73
Craig A. Chu, CE ’70 ’71,
Business ’86*
William C. Clark, MS ’73**
George & Trisha Clifford,
ME ’67 ’71*
Douglas P. Clough,
CE ’70 ’72 ’77
Steven Cochran, EECS ’84 ’87*
Verginia H. Colt
Burton A. Corsen, ME ’50
James L. & Nancy A. Costanza,
ME ’58
W. Rocco Costanza
John & Gilda Crevier, EE ’50***
Professor & Mrs. Carlos F.
Daganzo
Leland M. David, CE ’55***
Lynden F. Davis, ME ’64*
Vedran L. Degoricija, EECS ’96
Dr. An-Chang Deng, EE ’86 &
Dr. Mei-Chien Lu, MS ’84 ’87
Raj & Helen Desai, CE ’53*
Donald F. Donner, EE ’52*
Mark J. Donovan, ME ’92 ’95
Professor David & Barbara
Dornfeld**
Dr. Joseph A. Drago,
CE ’71 ’80***
Dr. Beverley C. Duer, IE ’62
Donald & Sally Duggan
Frederick H. Duhring, ME ’75*
Roland A. Duquette, EE ’56
Samson E. Dyson, CE ’75
Amiram M. Eisenstein, EE ’51***
Mr. & Mrs. Rangasamy
Elangovan, NE ’69
Edward J. Eng, ME ’71
Alton C. Engel, ME ’43
Francis J. Enright, ME ’48*
William G. Erlinger, EE ’84
Katherine T. Faber, MS ’82
Mr. & Mrs. F. Louis Fackler,
ME ’48*
OF
GIVING
THE BENEFITS
Donors reap benefits as well
or some, the college memories one cherishes years after
commencement are ripe with football victories, marching
bands, and beer hall friendships. For others like Berkeley
alumnus Robert S. Pepper, lasting memories reside also in the
classrooms, the labs, and the relationships forged with professors.
A long-time friend of the College, Pepper established the Robert
S. Pepper Distinguished Professorship in Electrical Engineering,
currently held by EECS Professor William G. Oldham.
“We were given a remarkable education at Berkeley,” says
Pepper, EE ’57 ’58 ’61, who served in executive positions with
RCA Corporation and Analog Devices Corporation before joining
Level One Communications, Inc., where he was president, CEO,
and chairman of the board.
“I credit much of my success to the expertise and generosity of
my Berkeley professors, and I hope my gifts to the College will
help foster what was so important to me there: the dedication,
drive, creativity, and personal involvement of the professors. It’s
absolutely one of the joys for both me and my wife Star to be able
to give something back to those who helped shape my career.”
F
James T. Fahey Jr., EECS ’97
Dr. Ghaffar Farman-Farmaian,
EE ’58
Pamela N. Farnsworth, EE ’83
Mrs. Domenico Ferrari
Betty Jo Fisher, IE ’71,
Business ’80
Larry A. Fites, CE ’57**
Edison & Sharadon Fong,
EE ’77 ’79
David J. Foster, ME ’79,
Business ’84
Randolph & Clarice Fox, EE ’79
Glen G. Fuller, EECS ’63
George G. Fung, CE ’51*
Jonathan E. Funk, CE ’77
Harold J. Garland, EMS ’90
Stanton & Beatrice Gee,
CE ’57 ’62*
George Gin, CE ’93 ’95
George Girot, ME ’66***
Bruce Glidden, CE ’50**
Robert C. Go, EE ’67*
Mr. & Mrs. John P. Godwin
Martin Goldsmith, ME ’51*
Milton & Mary Ann Gosney,
EECS ’66 ’70
George & Georgianna
Greenwood, CE ’54*
Jing Gui, MSME ’91*
Armand G. Guibert,
Chemistry ’42, ME ’52
Richard T. Haelsig, CE ’58 ’59*
Gregory L. Halac, EECS ’82*
Mr. & Mrs. William M. E.
Haley, MT ’60*
Richard F. Hamilton, IE ’49*
Robert D. Hanscom, IE ’58***
Thomas L. Harper, EEMS ’65
Edwin A. Harvego, ME ’66 ’67
John E. Hasen, EE ’50
Dr. Paul E. & Angela K. Haskell,
EECS ’88 ’90 ’93 & IEOR ’91*
Anne E. Heasly
A n n u a l R e p o r t 2 0 0 0 - 01
|
33
OF
5:02 PM
Page 34
GIVING
THE BENEFITS
12/5/01
Taking the lid off technology
ver wonder how a cellular phone works? Ever wish you could
see inside a computer as it’s processing data? In Jeffrey
Bokor’s freshman seminar, students explore the inner workings of these and other electronic products they use every day.
Bokor says he teaches the one-unit course, “Gadgets Electrical
Engineers Make,” to give students a window into the hardware that is
powering the information age. Years ago, he says, technologicallyminded high school kids used to tinker under the hood of a car or
make stereo components from Heath kits. “These days, the kids just
play video games and sit at the computer,” he says. “You wouldn’t
believe how many of these students have never taken the covers off
their PCs.”
Partly underwritten by the Berkeley Engineering Fund, freshman
seminars like Bokor’s give first-year students a chance to study with
tenured- and tenure-track professors in a small-class environment.
Says Bokor, “I try to make it as hands-on as possible.”
E
34
G. R. Herrick, ME ’39*
Keith Hertzer, EECS ’95*
Mr. & Mrs. Ernest E. Hill,
NE ’43 ’59*
Takeo T. Hirai, ME ’79,
Business ’83 & Elisabeth
Childers
Chun-Nei J. Ho, EECS ’82
Raymond Y. C. Ho, EE ’65 ’67*
Otto Hoefler, CE ’39***
Daniel Hoffmann, CE ’83 ’85 &
Elizabeth D’Orazi*
Charles J. Holloman, EE ’48***
John H. Homier, CE ’77 &
Bonnie Ashcom**
Bevin Hong, CE ’80
Jon A. Hoshizaki, ME ’78
Hagen Hottmann, NE ’83*
Harvey Houlston
Harold E. Howard, PE ’48
Eric Hsu, IE ’82 ’83***
Joseph H. Huang, IEOR ’90
Stephen Huang, CE ’84
Dwayne Hunnicutt, EECS ’92*
Su-U Hwang, ME ’91*
Fred K. Ikenoyama, EE ’56*
Hiroshi Inoue, NA ’83
Akio & Gladys Itamura*
Michael T. Itamura,
ME ’87 ’89 ’96
Kohei Itoh, MS ’92 ’94*
Wayne Ivans, CE ’40*
Pariborz Jahanian, EE ’74 ’77
Gary W. Jaworski, CE ’77 ’79*
Hans Jensen, CE ’70*
Edward R. Johnson,
ME ’66 ’68 ’73**
Mr. & Mrs. Lloyd Johnson,
CE ’50
Eric Roy Johnston, EE ’92
Paul K. Kageyama, EE ’65
Professor Emeritus & Mrs. Selig
N. Kaplan**
John S. Kikuchi, BioE ’79
David F. King, ME ’63 ’68
Jake & Margaret Klebanoff,
EE ’35*
Jonathan Kolyer, IEOR ’91
Peter A. Krenkel,
CE ’56 ’58 ’60***
Larry R. Krumland, ME ’63*
Dennis Kuo, CE ’91*
Wey C. Kuo, EE ’71 ’75
Lesley & Tom Kuykendall,
CE ’75 & CE ’69**
Bruce D. & Reena Kuyper,
EECS ’86
Sherman Kwok, EECS ’89*
Young Il Kwon, ME ’86
Donald Laabs, EE ’80
Dr. & Mrs. Felix L. Lam,
EE ’70 ’74
Jane Ann Lamph, ME ’82**
Dr. Andrew Larsen Jr.,
EE ’61 ’65**
Mr. & Mrs. Jack H. Lawson,
EE ’48*
Dr. David M. Layton,
EE ’64 ’66***
Dr. Craig M. Lee, EECS ’87
Professor John C. Lee, NE ’67 ’69
Judy S. Lee, EE ’78 & Albert K.
S. Lam
Mrs. J. A. Lee
Margaret H. P. Lee, EE ’85
Dr. Michael H. Lee, EP ’71*
Morris Lee, EECS ’99
Victor E. Lee, EECS ’86*
James E. Leonard, ME ’66 ’69***
Warren Wong Leong, EECS ’75
Sek-Hon Albert Leung, EE ’82
Jeong-Tyng Li, EECS ’84
Marvin W. Li, CS ’97
Tang Li, IEOR ’93
Robin M. Lim, MN ’87, CE ’89
Dr. Hong T. Lin, Physics ’87,
EECS ’90 ’92 & Ms. Anne Wu
Dr. Sing-Hsiung Lin, EE ’66 ’69
Susan Y. Lin, IEOR ’90 ’91
Paul J. Lingane, EE ’77
Ronald P. Little II, CS ’93
Steven H. Little, EECS ’87
Depeng Liu, ME ’95, CE ’96
Kuo Chung Liu, MS ’77,
MSME ’90
Leslie B. Loehr, ME ’51***
William Loesch, EE ’74 ’76
Frank D. Lord, EE ’30***
Steven F. Louie, EE ’80
Zung An Lu, CE ’64***
James F. Luini, EE ’57 ’64
Denny M. Lynch, ME ’84
Frank Ma, EE ’82 ’83
Eugene Maddocks, ME ’44*
Tarek Makansi, EE ’82 ’85*
Roderick Manalac, EECS ’89
John George Maneatis, EE ’88
Jeffrey Margolies, EECS ’96
James H. Martin, CS ’88
Shahriar Matin, ME ’97
Keene Masayuki Matsuda,
EE ’81***
Dr. & Mrs. Gerald Y.
Matsumoto, ME ’66 ’68 ’71**
Howard R. May, CE ’51 ’56***
Robert N. Mayo, EECS ’84,
CS ’87*
Donald N. McAdam, CE ’42*
Mr. & Mrs. James E. McCarty,
CE ’47***
Paul McJones, EEMS ’71***
Jitendrakuma Kantilal Mehta,
CE ’65
Irvan F. Mendenhall, CE ’41***
R. A. Missman, ME ’74*
Junichi Miyazaki, CE ’62
Lyle F. Mockros, CE ’62**
John F. Moran, ES ’80
Scott M. Morchower, ME ’90
Robert L. Morris, CE ’42***
Stephen E. Morrow, EE ’86
Peter L. Moulds, EE ’79
Mr. & Mrs. Thomas R. Muller,
IEOR ’86 ’88*
12/5/01
5:02 PM
Page 35
D E A N ’ S A L L O C AT I O N S O F AVA I L A B L E A N N UA L
UNRESTRICTED FUNDS, 2000-01
Timothy Mullins, EE ’77*
Richard L. Murray, ME ’73
Steve Y. Muto, EECS ’60 ’61***
Eric E. Nabel, EE ’77
George Y. Nakagaki, ME ’47***
Chung H. Nam, CE ’68
Guilherme J. Nascimento,
CE ’88
Roger & Karen Natsuhara,
CE ’80**
Alan E. Negrin, EE ’60***
Maxine D. Newman
Blake Edward Nicholson,
IEOR ’97
William Nicolet, ME ’58*
Ken Nishimura, EECS ’88 ’90 ’93
& Judy Huang*
Brian O’Clair, EECS ’98
Michael G. Oliva, CE ’75 ’80
Allen G. Ong, EE ’70 ’71
William H. Ong, EECS ’81**
Edward Orrett, IE ’74
George S. Osugi, ME ’62**
Bob R. Owen, ME ’42**
John M. Page, CE ’46*
Raymond L. Page, ME ’42 &
Ruth Gaskill Page****
Wallace C. Painter, EE ’53
Dr. & Mrs. Han H. Pak*
Jerry H. Parker, EE ’51**
Carl C. Pascal, CE ’44
Carl J. Pascaloff, ME ’44***
Kermit Paul Jr., ME ’63
Fred Pavlow, CE ’45
Dr. & Mrs. William T. Peake,
ME ’75 ’79
Mr. & Mrs. John L. Pearson,
CE ’38**
David M. Perkins, MS ’70
Keith A. Peterman, ME ’62 ’64*
Alexander D. Petruncola, EE ’75
Ken J. Pitts, EE ’57**
Steven S. Pong, MS ’97, IEOR ’98
David Presotto, EE ’79 ’83*
Thomas Quan, EE ’75
Llewellyn K. Rabenberg,
MS ’80 ’83*
Jack S. Rands, ME ’42*
Thangamuthu Rangaswamy,
CE ’66
Sydney D. Reader, Music ’95,
EECS ’95
Don Reeves, EECS ’90 & Peggy
Han*
William K. Rentz, PE ’40
Jill & Barry Reynolds,
EECS ’84 ’87
Bryan R. Rianda, CE ’68
Daniel S. Rice, CS ’96
Henry A. Rigali, ME ’44*
David & Melinda Ritzman,
CEE ’98 ’99 & CEE ’99
James H. Roberts, CE ’79 ’80*
John M. Robertson, CE ’58*
Lee A. Rodegerdts, CE ’92*
William O. Rosentreter, IE ’65
Norman J. Ryker Jr., CE ’49 ’51
Paul Y. Sako, EE ’69*
Alisa Scherer, EECS ’88 &
Timothy Cotter*
Don R. Scheuch, EE ’43*
Roy & Louise Schinnerer, ME ’38
Klaus Schuegraf, EECS ’94
Karen F. Scoffone, ME ’86
Carl A. Scragg, NA ’76***
Mrs. Paul E. Seaborn
Professor Emeritus & Mrs. Alan
W. Searcy, Chemistry ’50
Charles T. Shepperd, ME ’84*
Mrs. Frederick S. Sherman,
ME ’50 ’54***
David L. Sherwood, CE ’74*
Eric Shieh, EECS ’96
Michael S. Shigemura,
ME ’66 ’68
Toshiyuki Shigemura, CE ’71 ’75*
Steve S. Shih, EECS ’92
Kathy & Gerry Silverfield,
CS ’70 & ME ’65*
Chi-Kai Sin, EECS ’90**
Grace H. Siu, EECS ’92
Joshua M. Sled, EECS ’99
Travis E. Smith, CE ’53 ’58**
T. Louis Snitzer, EE ’41***
Professor Wilbur & Joanne
Somerton, PE ’41 ’48***
James F. Sorensen, CE ’41***
Harry Spence, MT ’62
James & Betty Spitze,
EECS ’60 ’62
Frederik N. Staal, EE ’85
Thomas L. Steding, EE ’71
Joyce Wilhelmy Steingass,
ME ’81*
Paul M. Stevens, ME ’51
Denise J. Stokowski, IEOR ’90
Ron & Joan Streit,
ME ’75 ’76 ’78
Donald B. Sturtevant, EE ’48**
Ho-Jeen Su, ME ’82
Norm & Linda Sweeney,
CE ’75 ’76, Business ’84***
Richard Tait, CE ’61 ’63
David & Mae Tateosian,
MENE ’78, NE ’80***
Roger A. Tatum, EECS ’61
Charles C. Thompson, EE ’63**
Gary & Mary Tietz, EE ’71 ’72*
Richard E. Tietz, EE ’67
Julian C. Timm, ME ’46**
Kai Toh, EECS ’86*
Leung T. Tom, CE ’49*
William & Vanny Tom, CE ’71*
Dr. Dennis E. Tremain,
EE ’70 ’74***
Huan Trinh, EECS ’97
Dah Wen Tsang, EE ’79
Ernest T. Tsui, ENG ’72,
EE ’74 ’78
%
New faculty support
41.0
Alumni outreach
17.1
College discretionary endowment
11.5
Student services and programs
10.3
Departmental programs
9.5
Dean’s discretionary funds
2.3
Undergraduate Research Program
2.0
Freshman seminars
2.0
Distinguished faculty support
1.7
Kresge Engineering Library
1.5
Research programs
1.1
GIFTS
BY
SOURCE, 2000-01
Donor Type
Amount Given
Alumni
$1,100,287
Faculty
$9,400
Parents
$163,531
Students
$1,175
Friends
$39,999
Matching Gifts
$164,616
Organizations
$21,135
BERKELEY ENGINEERING ANNUAL FUND PROGRESS
Academic Year
Annual Fund Goal
Amount Raised
1996-97
$1,000,000
$1,077,710
1997-98
$1,200,000
$1,201,433
1998-99
$1,350,000
$1,374,631
1999-00
$1,400,000
$1,476,666
2000-01
$1,500,000
$1,504,143
A n n u a l R e p o r t 2 0 0 0 - 01
|
35
12/5/01
Dr. Shi-Chuan Tu, EE ’85*
Margaret A. Tune
David B. Turner, EECS ’71**
Gregory Uehara, EECS ’89 ’93
Ren Umeda, ME ’84
Dale C. Vaccarello, EE ’63***
Professor Emeritus Theodore &
Janice Van Duzer, EE ’60**
David R. Van Volkinburg,
Architecture ’74, CE ’78
Raymond L. Vargas, EECS ’96
Gregory James Vassilakos,
NA ’83***
John A. Vincent, EE ’35
Inta Vodopals, History ’69,
CE ’76 ’83*
Xuan T. Vu, EECS ’88
Michael & Rhandi Walker,
CE ’63***
Kirk A. Wallis, CE ’76
Gregory S. Walter, EECS ’92
Mr. & Mrs. J. David
Wanderling, CE ’90*
Bebe Li & Henry Wang,
IEOR ’89
James R. & Darlene B. Ward,
EE ’56**
George G. Watson, EE ’57 ’58*
Tom Watson, EE ’79*
Douglass G. Webb Jr., ME ’49***
Katherine Westphal, MS ’78***
David Whorton, ME ’88
Professor Emeritus Robert L.
Wiegel, ME ’43 ’49
W. Clinton & Karen Wilhoite,
ME ’85*
James A. Wilmore, EE ’77 ’81*
Stephen A. Wilson, ME ’51
Jacob H. Wisniewski, EE ’56***
Eric R. Wolff, ME ’82
Kelvin K. Wong, ME ’87
Linda King Wong, IEOR ’94
Ming G. Wong, EE ’85
Robert & Ellen Wong, EE ’58,
Education ’78
Shui-Ying Wong, CE ’83
Tom & Jan Wosser, CE ’49***
Ron Yamada, EE ’84
Jan L. Yamauchi, EE ’84
Professor Candace Arai Yano*
Roy A. Yarid, CE ’77 ’79
Candy & Brandon Yee, CE ’86
Robert S. Yee, CE ’61*
Yale H. Yee, ME ’59
Michael & Sueann Yeung, EE ’80*
Gordon Yim, ME ’51
Harry H. Yoshikawa, ME ’66 ’68
Crid Yu, EECS ’90 ’93 ’96
David P. Yuen, ME ’75,
Business ’83**
Fay L. Zadeh
Paul Zajchowski, MS ’74*
Nina B. Zumel, EECS ’89
Jim Zumwalt, CE ’77
36
|
5:02 PM
Page 36
C AMPANILE C LUB
Annual donors of $100 - $249
Fund
Roy K. Abe, CE ’80**
Michael F. Ableson, ME ’83
Richard S. Adachi, EE ’73
Ralph J. Adamo, MT ’51
Bret W. Adams, ME ’87
Janet Adams, CS ’87*
Mark F. Adams, Architecture ’83,
CE ’98
Paul L. Adamson, CE ’29*
Mihran Agbabian, CE ’51
Dale A. Ah Tye, EE ’82
Jeffrey L. Alcalde, CE ’92
William S. Aldrich, CE ’52
Jelani C. Alexander, ME ’95
Raymond S. Alger, EE ’43*
Donald P. Allen, ME ’50
James H. Allen Jr., EE ’72
Lowell C. Allen, CE ’51**
Sergio A. S. Almeida, CE ’73
Roger & Jane Alt
Nancy L. Alvarez, ME ’89
James E. Alverson, CE ’54 ’61
George E. Alves, Chemistry ’39,
ME ’41*
William A. Ames, CE ’56***
James Ammon, ME ’83*
Alvin & Laura Amster, CE ’41*
Jane M. Andersen, CE ’82
Allan Anderson, EE ’76
Glen R. Anderson, EECS ’90
Howard L. Anderson, CE ’49***
Leland G. Anderson, ME ’56*
Marilyn Berry Anderson
Robert D. Andrews, ME ’47***
Arsam Antreasyan, EE ’80,
EECS ’84*
Michael Apcar, EE ’51*
Philbert D. Aranas, ME ’81
Andrew F. Ariey, EE ’44*
Carleen E. Arii Ho, CE ’90 ’92
Richard T. Arita, ME ’72
Sudhir Arora, ME ’88
John A. Artoux, CS ’90
Margaret Asami, EECS ’95
Bradley J. Ashbrook, ME ’88
Makoto Ashida
Abraham & Sofia Askenazi,
ME ’92 ’94*
Robert D. Astleford, ME ’78
Keith K. Atagi, ME ’85 ’87**
Frank M. Atwater, CE ’47
Bill C. Au, EECS ’98
Professor David & Mrs. Vivian
Auslander**
Howard B. Austin, EE ’41*
Jere Austin, ME ’44
Robert T. & Beverly B. Avery,
ME ’74
Norm Avrech, EE ’51***
James Axline, ME ’74
Ronald T. Azuma, EEMS ’88*
Donald H. Babbitt, CE ’57**
Jack K. Babcock, ME ’48
David R. Bacher, CS ’97
A. J. Bagdasarian, ChE ’70,
MS ’72
Mr. & Mrs. Fred A. Bagwell,
ME ’50***
Husni Bahra, EE ’78*
Philip L. Bailey, EE ’81
Richard J. Baines, CE ’64
Naren Bakshi, IE ’68,
Business ’69
Marc H. Balissat, CE ’75
Robert J. Bankard, CE ’86**
Michael J. Barberio, EE ’85
Ruth Bardakci
Paul D. Barker, CE ’90
James M. Barkley Jr., EE ’36*
Terry A. Barnes, EE ’80*
Scott D. Barnhart, CE ’92
Reyes & Betty Barraza, CE ’62***
Paul M. Barriga, EECS ’90
David C. Bartel, MS ’88
Stuart H. Bartholomew,
CE ’48 ’53
Kenneth G. Bartlett, EE ’60*
William R. Bartlett, ME ’59
Patricia & Donald Bartz,
ME ’49*
Carl Basore, CE ’62***
James H. Bassett, ME ’50
Kenneth K. Bathgate Jr.,
ME ’59*
Bern Baumgartner, CE ’90 &
Gretchen Torres
Leonard C. Beanland, ME ’49***
James B. Beans, EE ’53
Alexander D. Beattie, CE ’65
Keith Beckwith, CE ’84
Harold I. Beebe, ME ’67
Donald L. Beeson, EE ’67
Mr. & Mrs. A. Phillip Beiser,
CE ’49
Meltin Bell, CS ’91
Robert A. Belshe, EE ’61*
Magnus B. Bennedsen, CE ’52*
Greg K. Bennett, CE ’75***
Ralph Berger, ME ’79 ’80 ’94
Keith H. Bergman, CE ’59
Janice Yee Berling, MEMS ’86,
ME ’90
Arnold J. Bermingham, ME ’49
Marshall Wayne Bern, CS ’87
Rachel T. Bernstein, ME ’89
Per Berthelsen, EE ’69*
Joann & Clebern E. Best, IE ’49
John A. Bianucci, IE ’64**
Alan Bien, EE ’72
Charles D. Bilderback, ME ’56
Alfred P. Binsacca, MT ’43 ’47
Robert S. Binsacca, CE ’58***
Chet & Andrea Birger,
IEOR ’82 ’87
William Blackmer, CE ’55 ’60***
John C. Blanchard, EE ’68
Stuart Blank, MT ’64 ’67*
Mr. & Mrs. Robert E. Blau,
ME ’48***
Ernest W. Blee, CE ’51***
Anton Bley
Kenneth B. Bley, EE ’61 ’63
James M. Bloom, EECS ’85
Armin Bluschke, EE ’86
William Blythe, Architecture ’55,
CE ’57
John B. Bohle, ME ’65**
Professor & Mrs. Jeffrey Bokor*
Bart Bombay, EECS ’90 ’92
Robert Bonesteel, MT ’61
Parke L. Boneysteele, ME ’48***
Mark G. Bonino, CE ’81
Leslie H. Botham, CE ’72*
Murray Bowles, EE ’76
John S. Bradford, CE ’69*
Susan Day Bragagnolo, CE ’85
Professor Emeritus Robert H.
Bragg*
Lori A. Braithwaite, IEOR ’95
William E. Brandt, EE ’51
Eric Braun, EECS ’93
Florence L. Brittain
Gregory E. Broadbent,
NECM ’87*
Henry F. Brockschmidt,
ME ’42***
Larry K. Brodersen, EE ’56*
Rex Brooks, EE ’51
Mark A. Brosmer, ME ’85
Pierre & Virginia Brosseau,
CE ’54**
Brandon W. Brown, EECS ’00
Byron R. Brown, EP ’65**
Channing B. Brown III, EECS ’82
Douglas Brown, EP ’66, Physics
’68
Martin Brown, ME ’62
Mel Brown, Philosophy ’49,
EE ’56 ’60*
Roy Brown
Lawrence & Jean Brusher, ME ’79
Janet L. Brutocao, Business ’55
Russell J. Bruzzone, ME ’48***
Richard D. Bryan, CE ’70
Kristine Buchholz, EE ’79,
Business ’81
Keith E. Buck, ME ’53 ’58
Orland & Rozanne Buckius,
CE ’66*
Robert M. Buckwalter, ME ’47*
Johannes Buhler, CE ’71 ’74*
Mary L. Bullen
Philip R. Bunnelle, ME ’49
Max E. Burchett, CE ’60 ’64**
Glenn W. Burke Jr., EE ’42***
Don Burnett, ME ’61
Thomas J. Burns, CE ’47
Mark R. Burnside, EE ’72
William D. Burrows, CE ’66
Grant S. Bushee, EE ’68
Linda Bushnell, Mathematics
’89, EECS ’94
Howard E. Bussey, EECS ’80
Edmond B. Buster, MI ’40
Christine G. Butler, MS ’98
Duane Butler, CE ’57*
12/5/01
5:02 PM
Page 37
Alice & Kenneth Caldwell,
IE ’47*
Michael J. Callahan Jr., EECS ’67
Karol Callaway, EE ’78
James F. & Aimee S. Campbell,
EECS ’83, IEOR ’87**
Walter Cannon
Drs. Natalia & Paul Carey,
EEMS ’81, EECS ’83
Steven F. Carle, EG ’86, MS ’87
Donald E. Carlson, CE ’47
Douglas E. Carlson, CE ’47
Paul G. Carlson, ME ’39
Richard L. Carlson, CS ’89
Keith E. Carns, CE ’67 ’68
John J. Carpenella, ME ’57**
Charles D. Carroll, ME ’45
Greg Castro
Mark B. Catlin, CE ’84
Rosalie Cavallaro
Jeffrey D. Cawlfield, CE ’84 ’87
Joseph Cefali, ME ’56
Kenneth S. Chainey, CE ’82
Richard J. Chalmers, ME ’52***
Chingyao Chan, ME ’85 ’88
David K. Chan, EECS ’73
Gerald S. Chan, CS ’78
James & Kristen Chan,
EECS ’90 ’93 ’95
Jeffery M. Chan, EE ’86*
Jim M. Chan, EE ’78
Shui Lam & Hung Chan,
BioE ’00
Kenneth K. Chan, NAOE ’87
Sanford J. Chan, EECS ’74 ’76
Thomas M. Chan, EE ’73
Yum Tom Chan, EE ’66
Benjamin C. Chang, EECS ’88*
Betty Chang, CS ’74, Applied
Mathematics ’74, EE ’75*
David C. Chang, MEMS ’80
Edith Chang, ME ’90, &
Gregory Chapman, ME ’92
Jay Chang, IEOR ’91
Jin-Fu Chang, EE ’77
Mark K. Chang, IE ’78,
IEOR ’82*
Paul & Ching-Li Chang
Paul Chang, EECS ’90
Mr. & Mrs. Raymond Chang,
CE ’62**
Mr. & Mrs. Shung-Ho Chang
Wilbert H. K. Chang, EE ’57
Lee M. Chase, EP ’63, Physics ’69
Sachinder S. Chawla, EE ’81
Larry & Chee, CE ’57 ’60
Alex Chen, EE ’69
Andrea S. Chen, MS ’88
Irene Chen, Business ’98, CS ’98
Ko Chen, ME ’67 ’70 ’75
Richard L. Chen, EECS ’87
Richard L. Chen, IEOR ’95 ’99
Sivyong Chen, CE ’86*
Tony J. Chen, ME ’97
Wei-Bin Chen, ME ’97
Joyce S. Cheng, ME ’97
William W. Cheng, EE ’83*
Yu-Wen Cheng, NE ’78*
Jimmy Chew Jr., ME ’87**
Marshall & Barbara Chew
Cheng-Ching Chi, ME ’69*
Dalen T. Chiang, Mathematics ’71,
IE ’76
Yung Chien
Gordon N. Chin, CE ’51***
Perry Chin, CE ’76 ’77,
Business ’83
Richard B. Chinn, CE ’61
Tzi-Cker Chiueh, EECS ’92
Hogene L. Choi, CS ’96
Joo Y. Choi, ME ’95
Fay Chong, EE ’69 ’77***
Patrick J. H. Chopelin, CE ’70
Professor Anil K. & Mrs.
Hamida Chopra, CE ’63 ’66***
David Cheng Chou, IEOR ’94
Yon Sun Chou, ME ’62 ’66
Benjamin Chow, EE ’38
Pearl Sun Chow, ME ’83
Jonathan P. Choy
Terence A. Choy, ME ’74 ’77*
Mr. & Mrs. C. Y. Chu
Jeffrey C. Chu, EE ’79
Lincoln Chu, CE ’55***
Schubert S. Chu, ME ’95 ’97 ’99
Professor Leon O. Chua
Roy L. Chua, EECS ’94 ’96
Yew Khoy Chuah, ME ’82 ’85
Robert S. Chuck, IE ’56**
Lisa W. Chui, EECS ’93
Paul Chui, CE ’80 ’81*
Craig S. Chung, ME ’90 ’92
Donald Chung, CEE ’97
Jay B. Clare, MEPE ’86, ME ’89
Catherine & Robert Clark,
CS ’70 & MEMS ’71 ’73 ’79
Donald & Norma Clark, CE ’54**
Tom & Kathy Clausen,
Education ’72, CE ’76*
Joseph W. Cleary, ME ’42***
Arthur J Clifford, IE ’70
Michael J. Clifford, CE ’76
Professor Emeritus Ray W.
Clough Jr.
Robert E. Clough, ME ’61 ’63
Kevin Clugage, EECS ’97
Fred Co, ME ’90
Thomas J. Coakley,
ME ’56 ’60 ’65*
Steven C. Cole, EECS ’89 ’91
Adam B. Collins, BioE ’91
J. C. Collins, CE ’74**
David H. Colton, CE ’68,
Business ’72
Craig D. Comartin, CE ’73*
Don & Doris Cone, EE ’43 ’51**
Robert O. Conn Jr., EE ’70
Peter F. Connor, ME ’48
Guy D. Conover, ME ’42
Hunter T. Cook, CE ’58*
Joe E. Cook, ME ’56
George & Louise Cooper,
MM ’40**
Sol E. Cooper, CE ’59 ’74**
OF
GIVING
THE BENEFITS
Mentorship offers rich rewards
he son of an actor and a teacher, George Ban-Weiss didn’t
know any engineers when he was growing up. So when he
heard about Berkeley’s mentor program, he jumped at the
chance to build a relationship with a professional in his field.
In the two years since John Linford became his mentor, Ban-Weiss
says he has learned not only about the field of engineering but also
about the culture of the engineering world. Linford, a retired mechanical contractor, has hosted the mechanical engineering student at
several Engineering Alumni Society events. “Going to events with
John is cool because he introduces me to fascinating people and
they have super-interesting science-related discussions,” says BanWeiss. The student and the retired engineer, both licensed pilots, also
enjoy talking about their mutual passion – flying.
Linford says it’s been a rewarding experience to mentor a student
as enthusiastic as Ban-Weiss. “I predict great things for George,” says
Linford, who graduated with the class of 1947. “He’s a hard worker
and he has his eye on the ball.”
T
Shawn L. Copenhagen
Steve & Vicki Copenhaver*
Patrick Costanzo Jr., CE ’86,
Business ’90
Zip Cotter, ME ’81
David F. Covell, EP ’48***
John T. Cox, ME ’66
W. S. Craig, ME ’53**
Dr. Patrick J. Creegan,
CE ’87 ’91*
Virgilio B. Cristobal, EECS ’97
Jonathan C. Criswell, EECS ’95
Irene Croft Anderson*
F. Peter Crook Jr., ME ’40
Walter J. Crown
Eugene L. Croy, CE ’57 ’59
John & Laurie Cullen, CE ’70
Steven D. Culp, EECS ’78*
Neil J. Cummins, CE ’39
Sean P. Cunningham,
IEOR ’90 ’95, Statistics ’95 ’95
Robert M. Curley, CE ’62,
Business ’65*
Cynthia M. Dai, EECS ’88
Robert & Earline Dal Porto,
IE ’49*
Mai Dam
Thomas V. Damask, ME ’66
Peter V. D’Angelo, EE ’69
Rev. & Mrs. Paul E. Danielson Jr.
George Dankiewicz, EE ’83
Mr. & Mrs. Richard S. Darling,
ME ’53***
A n n u a l R e p o r t 2 0 0 0 - 01
|
37
12/5/01
Rajeev V. Date, IEOR ’92
John J. Davi & Rosann D. Kahn
Robert A. De Chene, IE ’49
John C. De Lotell, CE ’73***
Eric S. De Vries, ME ’90
Rabi S. De, NA ’82 ’90
Willett C. Deady, CE ’64**
Mr. & Mrs. Rajat K. Deb
Ruben & Teresa Delgadillo
Dale Delury, EE ’61*
Angelo F. Demattei, CE ’50*
Dr. Laura Demsetz, ME ’81*
Zhong Han John Deng,
Physics ’94, EECS ’97,
Economics ’97
Martin H. Denicke, ME ’66
Professor & Mrs. Armen Der
Kiureghian
Elizabeth O. Dere**
Frank & Karen Dere, EE ’71
Ashok K. Desai, EE ’69
Richard R. Desmond, CE ’39
THE BENEFITS
OF
5:02 PM
Page 38
Faye Marie Dewey
Abhijit Dey, MS ’72
Kevin & Melanie Dias, ME ’90,
CE ’96
Rob & Ann Dickerson, IE ’73
Marnix F. E. Dillenius, ME ’62
’64 ’68*
Vince & Jeanne Dilworth,
ME ’67
James & Margaret Dinsmore,
ME ’40
Francis J. Dodd, MT ’72
William P. Doherty, CE ’68 ’71
Robert & Susan Doll, ME ’74
Paul C. Dong, ME ’48
Mr. & Mrs. James L. Dooley,
ME ’37
James T. Doudiet, ME ’67,
Business ’69
Frederick Douglis, CS ’87 ’90
John & Paula Dowdy, EECS ’86
Chris A. Downend, EE ’77
GIVING
Berkeley booster issues call to action
former astronaut who’s flown on two Space Shuttle missions,
James van Hoften knows a tight spot when he’s in one. And
that’s just where the chair of the Berkeley Engineering Fund
found himself last May when he realized the College’s Annual Fund
was hundreds of thousands of dollars short of its goal. With just a few
weeks left in the fiscal year, van Hoften rocketed into action, initiating
a Sweep Challenge Match. He pledged to personally donate 50 cents
for every dollar contributed through the month of June.
Thanks to the generous work of van Hoften, ’66 CE, and others,
the fund met its $1.5 million goal by the end of the fiscal year. “I’ve
always enjoyed helping UC and I feel strongly about helping the
dean of engineering maintain the flexibility to keep UC in the premier
position,” says van Hoften, a senior vice president with Bechtel
Corporation, based in London.
A
4 ||
38
BB ee rr kk ee ll ee yy EE nn gg ii nn ee ee rr ii nn gg
Joel E. Downs, ME ’96
David Dreyfus, CS ’83,
Business ’88
Drs. Norman & Linda Dulak*
Larry N. Dumas, ME ’58 ’62*
Barbara F. Dunlap**
James A. Dupre, EECS ’97
Cinian Durbin, ME ’81
William L. Durbin, CE ’68*
John & Nancy Durein, ME ’65
James A. Dyer**
Gilles A. Eberhard, ME ’79
Bruce Edwards, MEMS ’88
Donald K. Edwards,
ME ’54 ’56 ’59
Terril A. Efird, ME ’42***
John Einarsson, ME ’50**
Don Eisenberg, Conservation of
Natural Resources ’75,
Environmental Health Science
Edward M. Elam, EE ’52
Uri Eliahu, CE ’81**
A. Grant Elliot, CR ’62*
Richard & Sandra Elliott,
CE ’51 ’52*
John W. Ellis Jr., ME ’43
Richard B. Ellis, CE ’73*
Samuel Elster, EE ’50
Mary L. Emerson,
Mathematics ’86, IEOR ’86
Robert L. Emerson, CE ’50***
Dr. Howard K. Endo, CE ’79,
EEMS ’84, & Dr. Linda M.
Hihara-Endo, CE ’79 ’84
Norman & Candice Eng,
CE ’74***
Robert Engelmann, EP ’91
John P. Engvall, CE ’55*
Dr. & Mrs. Jon A. Epps,
CE ’65 ’66 ’68
Richard C. Epps, EE ’55***
Robert M. Erdmann, ME ’81
James E. Ernest, EECS ’71**
Iheanyi E. Eronini,
ME ’74 ’75 ’78
Elmer L. Erwin, AE ’50*
Robert J. Etten, ME ’89
Ayelet Ezran, CE ’94
Mr. & Mrs. Jimmy C. Fang,
ME ’89
Don Faraudo, EE ’51*
Thomas & Phyllis Farver
Lawrence J. Fassler, ME ’81
Simon & Amy Favre,
EECS ’75 ’77*
Ayman Fawaz, EE ’83, EECS ’88
Professor Ronald & Marta
Fearing
Mr. & Mrs. Charles K. Fellows,
CE ’50*
Wayne R. Fenner, EP ’62
David Fenwick, MSME ’87 ’90
Robert A. Ferguson, ME ’67**
Walter M. Fiedler, EE ’48
Miguel Angel Figueroa, ME ’90
Robert E. Finch, EE ’40*
Jerome A. Firpo, CE ’65
Lorenz Fish, EECS ’82
B. R. Fisher
John F. Fisher, ME ’68
Russell W. Fisher, ME ’66
Roger J. Flynn, EE ’64**
Jean M. Follette, CE ’75
Dan W. Fong, ME ’72 ’75***
Jean Fong, EE ’85
Kirby W. Fong, EEMS ’67
Mitchell L. Fong, MN ’86, CE ’88
John V. Foster, EE ’42
William G. Foster Jr., ME ’66 ’68
Mr. & Mrs. Clinton H. Fowler
Glenn A. Fowler, EE ’41
Professor Emeritus T. Kenneth
Fowler**
Jamshed K. Fozdar, EE ’48
Donna L. Francisco, EECS ’90
Paul C. Frankenberger
Deborah Franzblau, ES ’80, &
Jerry Tersoff
Russell J. Fraser, EE ’38*
Sigmund & Janet Freeman,
CE ’55 ’57*
Paul Freiberger
James B. French, CE ’78 ’82
J. Bragi Freymodsson, EE ’44*
Robert Frias, EE ’64
Mark R. Friedman, EECS ’71
Roy R. Friedrichs, CE ’45
Douglas L. Frink, EG ’79
Mr. & Mrs. Stanley H. Froid,
CE ’51**
Roger G. Fry, CE ’56 ’58
Ramon M. Fuentes, CE ’81
Katsuyoshi Fujimoto, EE ’63*
Bert H. Fukuda***
Scott F. Fullam
Stanley Fung, CE ’82 ’83*
Andre & Solange Gabany,
ME ’53
Lester H. Gabriel, CE ’70
Daniel D. Garcia, CS ’95 ’00
Allan Gardiner, ME ’70
Thomas M. Gasbarro, CE ’76
Eng T. Gaw, EE ’67, EECS ’75*
Barbara A. Gee, EECS ’78
Ivan F. Gennis, CE ’49**
Ron & Mary Gerdes, ME ’57**
Raymond G. Gergus, IE ’51
Gholam R. Ghanimati,
ME ’74 ’80
Susan I. Gianforte, ME ’82
Edward W. Gibbs, ME ’86**
Lewis M. Gibbs, ME ’57 ’60
Jerry T. Gibson, EE ’65
Thomas Gielow, EE ’68*
James O. Gierlich, CE ’46
Andrew S. Gilcrest, ME ’60*
Leela E. Gill, MS ’88
Clinton C. Gilliam, EECS ’77
Mrs. Clive E. Ginner, Political
Science ’35
John & Kathleen Glaub, ME ’75
’79, Business ’99
J. Brian Gleghorn, CE ’81 ’83
David T. Gockel, CE ’82**
12/5/01
John S. Goerl, IE ’48***
Professor Kenneth Y. Goldberg
Krishna S. Gollamudi, IEOR ’93
Benedict A. Gomes, CS ’92 ’97
Chung C. Gong, MI ’50
Palmer Goodwin Jr., EE ’71
Thomas J. Gooley
Roger D. Goolsby, MS ’68 ’71
Moshe & Heidi Gordon,
EECS ’79
Capt. Joseph W. Gorman, CE ’40*
Ken Goto, EE ’72
Douglas J. Gotthoffer, EECS ’68
Carl H. Gottwald, EE ’48
Dr. & Mrs. Gerald L. Goudreau,
CE ’63 ’70*
Alan & Dorie Gradwohl,
IE ’55 ’58**
James Bernard Graeser Jr., ME ’58
Victor D. Graf, CE ’51*
John C. Graham, ME ’51***
Walter V. Graham, CE ’59
Robert B. Grant, MT ’38***
Robert J. Gravano, CE ’75
Ralph Graves, CE ’78**
Evelyn L. Gray, CS ’80
David D. Grayson, CE ’52**
K. D. Green
Professor & Mrs. Ehud
Greenspan
James D. Greenstein, CE ’80 ’81*
Roy F. Greenwald, ME ’78 ’80
Donald G. Gregory, EE ’58***
Paul M. & Patricia A.
Gregory***
Wilton Woody Gregory, ME ’64
David B. Greiner, EE ’64
John F. Grilli, EE ’68
Alan & Marcia Grisemer, IE ’60*
Carson H. Gross, IEOR ’99
Michael Gross, ME ’75*
Professor Emeritus
Lawrence M. Grossman,
ME ’44 ’48
Ajit & Nirmala Gujar, IE ’71,
Business ’73*
Itzhak Gurantz, EE ’78
Christopher Haas
John M. Haasis, ME ’44 ’49
Steven T. Hackman, IE ’80,
Mathematics ’82, IEOR ’83
J. Dennis Hagopian,
EECS ’67 ’70***
Paul Issac Hagouel, EE ’76*
Timothy V. Hahn, EECS ’86
Susan M. Hajek
Daniel C. Halbert, CS ’81 ’84
Albert L. Hale, ME ’47 ’49 ’56*
Will Halim, EECS ’95
Edward M. Hall, CE ’52
Dr. & Mrs. Harold R. Hall,
EE ’56 ’57 ’66***
Joe & Marcella Hall
Peter M. Hall, CE ’70
Professor Eugene & Mrs.
Marianne Haller**
5:02 PM
Page 39
Dr. David W. Halligan,
CE ’82 ’83 ’88**
Lee & Betty Ham, CE ’42*
Gordon & Amy Hamachi,
CS ’77, EECS ’82 ’86*
David & Shirley Hammond,
CE ’54***
Billy Han, EE ’79 & Marilyn
Mendel Han
Takuzo Handa, Mathematics ’52,
EE ’56
Frank Hanrahan, EE ’47
William L. Hansen, EE ’59
Roger & Sheryl Harker, EE ’66
Bob Harkness, EE ’35
Lawrence G. Harris, CE ’50***
Alan D. Hart, EECS ’78
Kenneth B. Hart, EE ’73,
Business ’78*
Stuart K. Harvie, CE ’51**
Harry & Sharon Hasegawa,
Architecture ’71, CE ’75
Mark C. Hastings, EEMS ’88
John Hatfield, EECS ’90
Jeffrey M. Hatlen, ME ’77
Frank E. Hauser, MT ’48 ’50 ’57
Mark Hauser, EP ’76
Charles J. Haver, CE ’50
Yu Hayakawa, IEOR ’88 ’92*
Patrick Hayes, CE ’74
Frances He, CS ’91
Delmar L. Heath, PR ’55*
Edgar J. Hee, CE ’69 ’70*
Robert & Margaret Heers,
MM ’40***
Marcia Monzon Heitzmann,
ME ’80
H. P. Hernandez, ME ’43
Mr. & Mrs. Jack E. Herrero,
CE ’44
Doug Hewett, EECS ’68
Richard R. Hibbard, ME ’63 ’68
Alfred K. Higashi*
Harold H. Higgins, CE ’53
Bryan Richter, EE ’83 & Ellen
Hilbrich, EE ’83
Craig & Carole Hill, CE ’71
Deborah Hill, CE ’81 & Forest
Weld
Emerson W. Hill, ME ’47**
Stephen & Barbara Hill, CE ’70*
Michelle L. & Brett Hilton
Alan & Teri Hirasuna, ME ’62**
Alan Ken Hirata, EENE ’81
Ephraim G. Hirsch, CE ’53 ’55
Thomas C. Hirst, EE ’73
Wayne L. Hjelmstad, EECS ’70**
Khinh Ho, MEMS ’92
William Ho, ME ’99
Al Hoagland, EE ’47 ’48 ’54*
Steve E. Holland, EE ’83 ’86
Gene & Janet Hollfelder, CE ’50
Marshall H. & Roberta B.
Hollimon, EE ’58***
Jack Hollins, EE ’82
Thomas G. Holmes, EE ’49*
Daniel Y. Hom, CE ’62
Jennifer L. Hom, EECS ’92
John H. Hom, CE ’57 ’58***
Kohei Honde, ME ’67
Ray V. Hopper, MM ’39
Akinori Horai, CEE ’97
Saburo Hori, ME ’40 ’42*
Toshio Hori, EE ’64
Robert C. Horn, ME ’42
Derry P. Hornbuckle, EECS ’76*
David R. Horton, BioE ’81
David Houghton, CE ’86
William M. House, MM ’43***
Jack Hovingh, NE ’73**
Charles W. Howard, EE ’51***
Eric B. Howard, EECS ’90
George M. Howard, EE ’69*
Martin Howell, ME ’85
Linda Howe-Steiger
Douglas Howie, EE ’75*
Van H. Hsieh, BioE ’82
James F. Hsu, EECS ’99
Wei-Ling Hsu, IEOR ’98
Harold Zin Htutt, MEMS ’97
Lloyd Huang, EECS ’96
Marie L. Huang
Steven A. & Diane C. Hucik,
MSME ’76**
Russell M. Hueckel, CE ’41
William L. Huf, CE ’78**
Reginald Huggins, ME ’50
Kwok Wah Hui
Charlie Hultgren, EP ’87
Charles F. Hunkins, PE ’39
Neal & Charlotte Huntley*
Shawn P. Hurt, EECS ’81
Eugene J. Hwan, EE ’66
Piao-Ching Hwang
Bor-Chih R. Hwang, CE ’91 ’92
Ronald Yoshihiro Ibaraki,
EE ’74**
Jeffrey K. Iida, EE ’80
Kenneth A. Ikeda, ME ’62*
Michael H. Ikeda, ME ’83
William S. Inouye, AE ’51*
Raymond Itaya, CE ’52 ’57*
Steven H. Ito, CE ’61***
Kumiy Roy Iwao, ME ’58*
Ralph Iwens, EE ’64 ’67***
Mary A. Jacak, Architecture ’83,
CE ’86
Michael D. Jackson, ME ’69 ’71*
Ellis Jacob, EE ’59
George K. Jacob, EECS ’87
Myron H. Jacobs, EE ’44*
Robert E. Jacobsen, EE ’66***
Larry L. Jacobson & Ann K.
Parks
Susanna Jacobson, EECS ’76
Margret Jacoby, CS ’97
Zen K. Jao, CE ’82
Richard C. Jared, EE ’70
Don Javete, CE ’54 ’83*
Ruth Jenkins, BioE ’69
Doyle B. Johnson, EEMS ’88
Fran Johnson
Gregg A. Johnson, ME ’85***
Mr. & Mrs. Jerrold C. Johnson,
CE ’72
Ralph Johnson, CE ’70**
Richard W. Johnson, CE ’90*
Steven Johnson, ME ’69**
William H. Johnson, CE ’73 ’76
Mr. & Mrs. Fred J. Jones, EE ’68
Jared E. Jones, EE ’68
Kale E. Jones, CE ’51*
Ronald D. Joost, CE ’82**
Barbara L. Judd, CE ’77
Thomas L. Juell, ME ’65
Frank B. Julian Jr., CE ’54*
Robert L. Kahl, EE ’55
Peter Kaiser, EE ’65 ’66
Brian K. Kaku, ME ’99
David A. Kam, EE ’79
Tamim W. Kasrawi, CE ’69
Dr. Howard P. Katseff, CS ’78
Mr. & Mrs. Charles L.
Kavanagh II, CE ’69***
Michael C. Kavanaugh, CE ’74
Edward Kavazanjian Jr., CE ’78*
Ayako Kawabata, CEE ’97
Robert Kayen, CE ’89 ’93
Dr. Ifiyenia Kececioglu, ES ’87*
Edward J. Keith, CE ’61 ’65**
Richard C. Keller, PE ’64*
Carl Kempf, ME ’90 ’94
David N. Kennedy, CE ’59 ’62
Michael Terrance Kennedy,
ES ’80, ME ’83
Gloria & Robert Kennerknecht,
EE ’59
Harold E. Kerber, ME ’47
John C. Kerley, EECS ’91
Mark L. Kermit, CE ’57
John W. Kern, EP ’56,
Geophysics ’58 ’60
John H. Kessler, MS ’93
Mohsen A. Khatiblou,
ME ’75 ’76 ’81
Sion M. Kidane, CE ’90
Mr. & Mrs. Craig T. Kiernan
Ryoichi Kikuchi
Hyounjin Kim, ME ’99
Sejung Kim, IEOR ’96
Eric Kyungsuk Kimn, MS ’95
Edward Kimura, EE ’54*
Edward K. King, ME ’91
Theodore Kishimori, ME ’62*
Dr. & Mrs. Walter Y. Kitajima
James E. Kleckner, Chemistry ’77,
EE ’80, EECS ’84
David Knight, ME ’86*
Joseph F. Knight, CE ’39
Yukiko Kobayashi
Kara Kockelman, CE ’91 ’96 ’98,
City & Regional Planning ’96*
Jack L. Koepler, ME ’51**
Robert Kohne, CE ’71 ’73*
Fred Kohno, CE ’48*
Randy Kong, EE ’70 ’72,
Business ’83*
A n n u a l R e p o r t 2 0 0 0 - 01
|
39
12/5/01
Gregg Korbin, CE ’71 ’72 ’75**
George J. Korsh, EECS ’75 ’76
Hans W. Korve, CE ’66 ’67**
Leo Koskela, EE ’57*
Igor G. Kouznetsov, EECS ’97
Eugene & Janet Kozlowski,
PE ’56
Julius J. Krauklis, ME ’43*
William A. Krause, ME ’52
Robert H. Kreidt*
Donald D. Kriens, ME ’59
William J. Krueger, CE ’41*
Harry Krueper, TE ’53**
Krystal Krull, CE ’87
Daniel C. Krummes
Lawrence A. Kruse, CE ’56
Wynham W. Ku, CEE ’97 ’99
James S. Kumagai, CE ’69
Albert C. Kuo, EECS ’89
Heinz Kuo
Lih-Chung Kuo, EE ’78
Willsenn L. Kuo
Mr. & Mrs. Howard H. Kurio
Jr., CE ’62
Lance R. Kurisaki, EE ’83
Ali Kusnadi, EECS ’96
Dr. Young Hoon Kwak,
CE ’92 ’97
George Kwan, EECS ’90
Philip A. La Barbera, ME ’80*
Robert Laing, IEOR ’81*
Dominic Lam, EECS ’95
Tim Y. Lam, EE ’62
David Lambert, EE ’56 ’58*
Linda Lambert
Dr. & Mrs. Larry W. Lamoreux,
ME ’60 ’60 ’70
Col. Barry Landson, EE ’62
Fred Lange Jr., CE ’47**
Ludy E. Langer, ME ’47,
Business ’48***
Katherine A. Lange-Twigg,
EECS ’81
Dr. & Mrs. Ricci Larese*
Merle E. Larrabee, CE ’56*
Kevin M. Larrowe, CE ’75 &
Lucy B. Robins**
David R. Larsen, EE ’72***
Dr. & Mrs. Ted L. Larsen,
IEOR ’61, MS ’62
Stanton J. Lauter, EE ’59*
Roy M. Lazar, ME ’47*
Binh Q. Le, EECS ’94
Nam Q. Le, MENE ’94
Brian W. Lee, EECS ’96
Chilton & Nancy Lee, IE ’65
Ching Lee, EECS ’97
Corinna Lee, CS ’92
Dick Y. Lee, ME ’50
Mr. & Mrs. Gorden Lee
Hei-Yip Lee, CE ’81 ’82 ’86
Jeffrey H. Lee, ME ’78,
Business ’87
Johnny S. Lee, EE ’82
Jung Young Lee
Kelly C. Lee, ME ’73**
40
|
5:02 PM
Page 40
Millard H. Lee, ME ’88 ’90
Peter K. & Yulin Lee, CS ’83 ’84
Peter Lee, EE ’79
Steve Quon C. Lee, CE ’51*
Raymond W. Lee, BioE ’84*
Robert G. & Emma L. Lee,
CE ’42 ’55
Stephen R. Lee, EE ’78
Victoria Shen Lee, CE ’95
William Tsun-hwa Lee, MT ’65
David A. Leech, CS ’86
John P. Lehman, EP ’55, NE ’59
Craig D. Leibsle, CE ’53**
Ray P. Leister, PE ’56
Bruce K. Leisz, ME ’74,
Business ’78*
Leland E. Leisz, EE ’61,
Business ’63***
George & Antoinette Lenfestey,
CE ’51***
Mr. & Mrs. Terrance M. Leong,
CE ’79
Ward Leslie, EE ’62
Ken C. Leung, ME ’79***
Richard A. Levin, ME ’87**
Mrs. Robert C. Levy,
History ’44***
Steven F. Lew, CE ’89 ’90
Thomas G. Lew, EECS ’82**
Patricia Li, CS ’95
Judy Liao, EECS ’96
Alfred L. Liaw, MS ’74 ’77
Darren S. Liccardo
Michael A. & Marlene F.
Lieberman**
Hansen H. Lieu, IE ’92 &
Wendy Y. Lo
Peter B. Lim, CE ’59*
Chang & Alice Lin
Cheng Shung Lin, CE ’73**
Cheng-Huei Lin, EE ’71
Chinlon & Helen Lin, EE ’74
Arthur J. Lindeman, NE ’66
Douglas Linder, ME ’54
Jack A. Lindley, CE ’60
Marvin R. Lindorf, CE ’56 ’57
Mr. & Mrs. Paul C. Ling, CS ’83
& CS ’84
Yong Liou, NA ’63*
Mr. & Mrs. Laurence R.
Lipstone, EECS ’83
Thomas L. Liston,
Humanities ’52, ME ’61
William S. Little, CE ’76
Donald Littler, EE ’57
Andrew S. Liu, EE ’92
Chun-Peng Liu, ME ’77 ’79
Jeff & Cindy Liu, CE ’90 &
CE ’90 ’93
John F. Liu, ME ’62
Ralph Liu,
Applied Mathematics ’82,
CS ’82, EECS ’84
Richard H. Livezey, ME ’57
Jimmy Lo, EE ’81
Norman E. Lobdell, IE ’62
Derik F. Lochtenbergh, MS ’90
Martin B. Locke, ME ’44*
Mr. & Mrs. Neville S. Long
John P. Longwell, ME ’40
Francisco R. Lopez, EECS ’92,
Business ’98
Thomas L. Lott, CE ’71
Gordon C. Louie, CE ’55 ’56*
Chew Y. Low, CE ’53*
Ross John Lowe, CE ’63 ’72
Thomas J. & Gail W. Lowry,
CE ’50**
Chyi-Kang Lu, CE ’64 ’74
Stanley H. Lucas, ME ’62
Harry W. Lucheta, IE ’53
Dave Henry Luders, IE ’60 ’62
Charles Ludwig, CE ’77**
Edward E. Luedke, ME ’60
Paul & Dora Lui, EE ’72
Jonathan S. Luk, EECS ’90
Mr. & Mrs. James Lukens
Royd E. Lund, CE ’43
Lawrence E. Lundeen, EE ’51*
Ronald E. & Jill Lundgren,
EE ’58 ’60 ’65
Henry W. Lunsmann, ME ’51*
Mr. & Mrs. Fred E. Lusk,
PE ’56*
Robert H. Luten, EE ’65
Robert W. Lynch, ME ’52*
Thomas P. Lynch, CE ’64
Robert M. Lyness, CE ’45*
Dominic & Emmy Ma, CE ’66
Richard B. MacConnell, ME ’78
William D. Mack, EE ’77 ’79
Lee & Susan MacLean,
ME ’64 ’65
Walter Maclean, ME ’56,
NA ’57 ’67*
Tom MacMullen, EE ’68
Haakon T. & B. Karla
Magnussen, EE ’65*
Everett W. Maguire, CE ’50
Michael & Carol Maguire
Steven B. Magyary, ME ’66 ’67
Liwen Mah, IEOR ’94
Gregory K. Mah-Hing, CE ’76
Mohammad M. Maljai, CE ’84
Richard Malueg, EECS ’61
Edgar Y. Man, EE ’73 ’75
Taghi Manbeian, CE ’72,
Soil Science ’73*
George Manlove, CE ’62*
Brett R. Manning, CE ’88
Nubar S. Manoukian, ME ’66**
Wing Mar, EE ’79
Michael Marinak, NE ’87 ’93*
Joseph M. Marino, IE ’81
Bob & Ann Markevitch,
EE ’54 ’57**
Wayne R. Marsh, ES ’77
Andrew C. Marshall, ME ’43
Douglas Martin, CE ’48
Merrill & Steve Marx
Donald M. Mason Jr., EE ’79
Micah A. Mason, EECS ’98
Rex A. Mason, CE ’58**
James C. Masters, ME ’80*
Setsuo Masuda, ME ’67 ’68*
John A. Mataya, EE ’66
Darlene DuBois Mathias, EP ’78***
Perry A. Mathis, EE ’64
Michael H. Matson, CE ’84
Hiromi Matsumoto, ME ’76*
Tadao Matsumoto, CE ’55
Paul T. Matsumura, ME ’41***
Steven F. Matt, CE ’77
Alan H. Matthews, IE ’48**
Howard F. Matthews, ME ’36
Robert J. Matthews, ME ’49
Tun M. Maung, EECS ’96
Mr. & Mrs. Brett Maury
Donald M. May Jr., EECS ’73
Gary S. May, EECS ’88 ’91*
Mr. & Mrs. Roger J.
McCandless, NE ’69
Mary B. McCarthy, EEMS ’76
Tim McCarthy, CE ’74 &
Cynthia Porter
William C. McCarthy, CE ’89*
George & Elizabeth McClure,
CE ’61**
John R. McConnell, CE ’58 ’63*
Roger A. McConnell,
Humanities ’53, EE ’58*
Jay S. McCoy, CE ’63
Robert B. McCullough, CE ’77
William McCutchan, EE ’48**
Robert N. McDougald, CE ’54*
Robert A. McEwan, EE ’75*
Dave McFadden, ME ’77
Inez V. McGee
Michael W. McGreevy, EE ’80,
EECS ’83, Individual ’87
James F. McLaughlin,
Mathematics ’67, ME ’68
William J. McLean,
ME ’63 ’65 ’71
Bradford B. McMillan, EE ’69 ’71
Kristen Manon McNair, EECS ’91
George M. McRoberts, ME ’42**
John F. Meade Jr., CE ’74
Steven C. Medbery, CE ’70
James E. Medlin, EE ’48**
Dr. Hardayal Mehta, ME ’68 ’71**
Suresh N. Mehta, ME ’64
Jose Meiches, CE ’63
Curtis Meier, CE ’53*
Sven E. Meier, CS ’94
David W. Meikle, EE ’50
John K. Meikle, EENE ’76
Lelio & Sandra Mejia, CE ’78 ’81
Solomon U. Melendres, EE ’68*
Susan H. Mellers, BioE ’78,
EECS ’83
Alfred Mendoza, EE ’57*
Dr. James C. Meng,
ME ’65 ’67 ’69
Samuel T. Merrell, ME ’66
Elizabeth L. Meyer, CE ’78
Jack A. Meyer, IE ’54
Anne & Joseph Meyer, EE ’49***
William A. Michael, EECS ’86
12/5/01
5:02 PM
Page 41
Paul Raymond Mighetto, CS ’82
Mark Mihalik, ME ’82
Gary Charles Mikelson,
EE ’71 ’72
Thomas D. Mill, CE ’57
Joel R. Miller, EECS ’91
Robert L. Mills, CE ’61
Larry W. Milnes, CE ’48*
Steve Minassian, CE ’84
Andrew Minden, MS ’82*
Mr. & Mrs. William A. Minner,
ME ’79 ’80**
Ian I. Mitroff, IE ’61 ’63 ’67
Ronald H. Miyakawa, ME ’68
Thomas H. Miyashiro, CE ’64
Gary L. Mochizuki, CE ’76 ’77
Manish Shirish Modi, ME ’91
Mr. & Mrs. Alexander S.
Moisenco, EE ’41
Bruce C. Montgomery, CE ’76*
Mr. & Mrs. Michael J. Morgan,
EE ’82
Thomas Morgan, CS ’82**
Dennis Moritz, EECS ’83**
Iwao M. Moriyama, CE ’31
Catherine A. Morris, CE ’87 ’89
Vincent P. Morris, ME ’79*
Dr. Glen A. Mortensen, NE ’63
Richard E. Mortensen, EE ’66
Allen Mottershead, EE ’64***
Robert B. Muchmore, EE ’39***
Martin R. Mulhern, CE ’68
Roy K. Murdock, PE ’51
Emmett J. Murphy, ME ’47***
Glenn W. Murray, EE ’60
Richard L. Murray, PE ’51*
Mark R. Musial, CE ’80 ’81
Kathryn M. Naassan, ME ’91
Gordon R. Nakagawa, EE ’58
Steven M. Nakasone, EE ’70
Professor William W. Nazaroff,
Physics ’78, EE ’80 & Ingrid
E. Hamann
William E. Neal, EE ’66
James W. Neighbours, ME ’40
Darold A. Nelson, CE ’53*
Dean D. Nelson, CE ’69*
Gordon G. Nelson, EE ’56
Jeffrey L. Newmeyer, EP ’67
David M. Ng, EECS ’79*
Harlen Ng, EE ’65***
Mark Ng, CE ’49***
William & Mabel Ng
Wilson Ng, CE ’72 ’73
Hoang-Nam Nguyen, CEE ’99
Toan Nguyen, EECS ’97
Joseph P. Nicoletti, CE ’43*
Hubert L. Nielsen, CE ’48
Mark A. Nielsen, ME ’84 ’87
David Nip, EE ’70 ’71***
Michael Y. Nishida, EE ’67*
Michael Nishimoto, EECS ’87
Eugene I. Nishinaga, EE ’76
Yoshihito Nishizaki, EECS ’89*
Eric & Kathy Nordman,
ME ’80 ’82*
Robert & Elisabeth Nordman***
Arthur P. Notthoff Jr., EE ’47
Evert C. Nygren, EE ’66*
Richard S. O’Brien, EE ’39**
Elizabeth G. Oclander
Michael J. O’Connor, CE ’78
Ivan & Gaye Odom, ME ’48*
Benjamin H. Oei, EE ’69
Paul F. Offermann, EE ’39*
James Ogata, CE ’74*
James C. Ogle, CE ’78
Virginia E. Ogle, CS ’95
Lorin Olson, ME ’56
Robert U. & Betty J. Olson**
Mitchell Olszewski, ME ’75
Andrejs Olte, EE ’54 ’57 ’59
Scott B. Olthoff, CS ’74
Thaddeus M. Omura, EECS ’95
Clayton H. Ono, EE ’82
Robert W. Orlando, Business ’87,
CE ’87
Dr. Robert L. Osborne,
ME ’56 ’67
Sheida Otmishi, EMS ’94
Dr. Carlo V. Oughourlian, CE ’82
Steven Ouzounian
Gregory G. Ow, CE ’80
Raymond W. Ow
Steve Palagyi, MFG ’87
Gregory Panawek Jr., IEOR ’72,
Business ’75
Roger Panicacci, EE ’85
Paul Panichelli, EMS ’83
John P. Paris, CE ’88
Walter A. Paroni, MI ’50
Dennis Pasadis, EE ’70 ’73
Professor Emeritus J. Randolph
Paulling, NA ’58***
John R. Paulling III, CE ’80 ’82
Dr. Hans Payer, NA ’67 ’70
Dr. Chun-Mou Peng, NE ’83
Gregory M. Pepino, ME ’81
David & Marie Perkins, CE ’51*
Luke T. Perkins, MENE ’91,
NE ’96 ’97
Betty K. Permetter-Falato, CE ’78*
James E. Perry, IE ’66
Peter A. Pestal, ME ’64
William R. Peters, CE ’35
Gerald W. Petersen, EE ’59 ’63
Donald E. Peterson, CE ’56
Andrew Petreas, IE ’80
David Petrig, ME ’47*
Bernard L. Peuto, EE ’69 ’74*
Ngoc M. Pham, EE ’77
Thomas A. Phelan, CS ’86
Paul F. Pick, PE ’39
Steven R. Pierce, CE ’70
John H. Pitts, ME ’58
Michael & Katherine Ploeger,
ME ’63 ’64*
Mark A. Pochodylo, CE ’76**
Margaret E. Poggio, CS ’83*
Professor Emeritus Elijah &
Virginia Polak, EE ’59 ’61
OF
GIVING
THE BENEFITS
Student societies serve up inspiration
ichelle Cordis didn’t have to look far for role models when
she was growing up. Both her parents were trained as engineers and early on she decided she would follow in their
footsteps. Now, as president of the Berkeley student chapter of the
Society of Women Engineers, the civil and environmental engineering senior is committed to helping other young women find their
path in a field that is still dominated by men.
“At Berkeley, only 20 percent of the undergraduate engineering students are women,” says Cordis. “We’d like to increase that.”
The Society of Women Engineers, one of more than 20 professional societies funded by the Berkeley Engineering Fund, tries to promote women’s participation in the field by providing networking and
career development opportunities to engineering students and professionals. In addition, members reach out to elementary, middle,
and high school students by making presentations to local schools
and inviting school groups to special events on campus.
M
Dr. & Mrs. Ronald M. Polivka,
CE ’69 ’70 ’76*
Dennis L. Polla, EE ’85,
Individual ’85, Business ’86**
Daniel Pomerening, CE ’77
Joseph J. Pomroy, CE ’91
Randy Pon, ME ’89
Rayman W. Pon, EECS ’83*
Derek Poon, EECS/IEOR ’99
Christopher D. Porter, City &
Regional Planning ’95, CE ’95
Rick Posch, EE ’82
Michael R. Posehn, ME ’68 ’74
Maurice S. Power, CE ’62
Kevin M. Powers, CE ’77 ’79
David J. Prend, CE ’80
Hoshang H. Presswalla, CE ’69
A n n u a l R e p o r t 2 0 0 0 - 01
|
41
OF
5:02 PM
Page 42
GIVING
THE BENEFITS
12/5/01
Lab experience gives undergrads an edge
t many large universities it’s easy for an undergraduate to get lost.
But Berkeley student Jacob Pollock got involved in cutting-edge
research long before he earned his bachelor’s degree.
Pollock, who graduated last spring in bioengineering with a focus on
biomechanics and biomaterials, spent much of his junior and senior years
working in the Orthopedic Biomechanics Lab through the Undergraduate
Research Opportunities (URO) program, which is partly supported by the
Berkeley Engineering Fund. There, under the guidance of Professor Tony
Keaveny and his graduate students, Pollock worked on computer analyses
of bone structure.
“This kind of lab work really complements a student’s coursework,
challenging the student with open-ended problems,” says Keaveny, who
usually takes seven to ten undergraduate students into his lab each year.
The son of an orthopedic surgeon, Pollock says the experience also
helped him see what it’s like to work in a laboratory – something he hopes
to do again when he goes to graduate school in a few years. “It’s shaped
my views on research,” he says.
A
42
Franklin Preuss, CE ’63*
Bryan D. Price, CE ’87
Michael Prime, ME ’89 ’91 ’94*
William R. Prindle, MT ’48 ’50**
Mr. & Mrs. Victor J. Prusas,
CE ’38**
Richard A. Prydz, ME ’61
Peter Purgalis, ME ’68
Marvin Pyles, CE ’81 & Carolyn
Cooper
Jerry Yut Quan, CE ’70 ’72
James J. Quinnan, EECS ’90
Roger & Jean Quinnan*
Mr. & Mrs. Michael L. Raab,
EE ’77
Michael J. Racer, IE ’86,
IEOR ’90
Brian A. Ragland, CE ’80
Dr. & Mrs. Raghunathan
Rajagopalan*
Kousalya & Jay Raman
Richard L. Ramont, EE ’54*
Jack D. Ramsdell, MT ’51
Anthony Rando, ME ’59
Lew & Shirley Raney, EE ’56*
Elizabeth C. Rauch
Chakravarthi V. Ravi, EE ’65 ’70*
Doug Raymond, ME ’67 ’70**
Steven Rea, EE ’79*
Jack F. Reetz, ME ’56, Business ’59
Louis L. Reginato, EE ’62*
Matthew L. Rei, CE ’81*
Kathryn M. Reid, IEOR ’95
Richard Reimer, CE ’73
Allen C. Remell, ME ’56
Robert L. Rende, CE ’60 ’61*
Frances D. Rensvold, CR ’60 ’61
William L. Renton, EE ’57
Peter & Vera Revelli, CE ’77 ’78
& CE ’77 ’78
Randolph Revelo, EE ’75
Angela Reyda, EE ’75
Stephen L. Rice, ME ’64 ’69 ’72
Rhonda Righter, IE ’82 ’86
Charles Rino, EE ’65 ’67*
Mr. & Mrs. J. David Rintoul,
ME ’42*
Subhash & Smita Risbud,
MS ’71 ’76
Jerry & Jane Risk*
Myong H. Ro, CE ’72
Clayton W. Robson, ME ’58
Ricardo J. Rocca, CE ’86*
Bert Rodgers, EECS ’83*
Sergio F. Rodriguez Sanchez,
IE ’50*
Frank L. Rollo, CE ’63 ’64**
Jerome Rosenberg, EE ’48
David E. Ross, CE ’67 ’68**
Elmer E. Ross, ME ’41*
Frederick C. Rossol, EE ’59
Joe Rothstein, EE ’72 ’77*
William Rous, CE ’58
Nivo Rovedo, EE ’80*
George & Barbara Rowe,
ME ’66*
Gilbert T. Rowe, ME ’43
Alan C. Rowland, EE ’64 ’65
David A. Rowland, MT ’52
Edith & Morris Rubesin,
ME ’45 ’47*
Richard B. Rubin, EE ’82
R. William & Wendy Rudolph,
CE ’77 ’78
James R. Russell, ME ’71
Kim Russell
John B. Ruzek, EE ’64
Philip M. Sachs, EE ’61, Law ’67*
Jerome L. Sackman
Mohammad M. Sadeghi,
NE ’83 ’94
Mr. & Mrs. Kanwaljit S. Sahai
Drs. David Sailor, ME ’90 ’93 &
Karen Watanabe-Sailor
William C. Sailor, ChE ’80,
NE ’83 ’87
Jerry M. Sakai, EE ’57*
Satoshi Sakamoto, CE ’66
Hiroe Sakata, CE ’71 ’74*
Kenshin Sakura, EECS ’00
Bruce J. Saldinger, EECS ’87
John W. Sale, ME ’77
Gerry Salsig, CE ’76 ’79***
J. F. San Sebastian, CE ’50
Joseph R. Santos, CE ’54
Paul J. Santos Jr., EE ’71**
Akio Sasaki, EE ’66
Jay Sato, IE ’77
Yozo Satoda, EE ’60 ’62*
Naftali Sauerbrun, ME ’73*
Jack W. Savage, EE ’40
Lynnette F. Schaper, CEE ’98
David C. Scharf, EECS ’92
Charles F. Scheffey, CE ’51
David Scheibelhut, EE ’79
Dennis M. Scherzinger, CE ’57*
Norman A. Schiewe, EE ’50
Vito A. Schirone, NE ’57
Gregory J. Schmidt, EECS ’95
Roy H. Schmidt, ME ’41
William L. Schmidt, ME ’66 ’67
Austars R. Schnore, CE ’62
Jeffrey A. Schofield, ME ’75 ’76
Mr. & Mrs. Dorner T. Schueler
Jr., MI ’48
Stephen & Jill Schwab, EECS ’87
Thomas A. Seeburger, ME ’47
Joh Sekiguchi, EE ’52***
Michael W. Selna, CE ’70
Michael F. Sentovich, ME ’87*
Eugene F. Serr, CE ’47
Gerald Michael Serventi,
CE ’75 ’78*
Bit Seto, EE ’64 ’65***
R. A. Sevilla, IE ’80 ’83
Terry R. Seymour, CE ’85
William J. Shack, ME ’65 ’68*
Steve & Katie Shaffer, MS ’86,
MSME ’90
J. A. Shafran, EE ’59, Law ’63
Hugo E. Shane, ME ’47
12/5/01
Daniel Shapiro, CE ’49
Don Sharman, IE ’50
Wade Shen, EECS ’94
Warren R. Shepherd, PE ’52
Robert Shepperd, EE ’49**
Earl A. Sheridan, EE ’59 ’60
Ben Shieh, EEMS ’95
Jim Shiffer, EECS ’81
Peter P. Shih, EECS ’80*
Ken & Irene Shimamoto, EE ’73
Carl Shimazu, CE ’76**
David & Danita Shneidman*
Jack M. Shulman, EE ’47**
Dana P. Sidur, IE ’75
Kenneth R. Sieck, ME ’84*
Linda J. Siegel, EE ’85,
Business ’93
Catalina U. Silsby
Marshall L. Silver, CE ’67 ’69
Daniel I. Silverman, CS ’82
Michael S. Silverstone, EECS ’66
Ralph Stewart Simpson Sr.,
EE ’72
Loyd C. Sindel, ME ’47
Harold T. & Ida May Sipe,
EE ’44*
Ukrit Siriprusanan, CE ’68 ’72**
Philip H. Skarin, CE ’46
Gary J. Skerl, EE ’79
Frank T. Smalley, ME ’76
Roger A. Smith, ME ’62
William M. Smith, EE ’78*
Kenneth R. Smits, EE ’77*
Mr. & Mrs. Erik J. Smitt,
ME ’73
Dane R. Snow, EECS ’75 ’78**
William E. Snowden, MS ’71 ’76
Timothy K. Snyder, CE ’70
Kenneth Soohoo, EECS ’90 &
Kathryn Chou, CS ’90
Richard Soule, EP ’48*
Gregory S. Spirakis, EEMS ’82
Mr. & Mrs. Robert T. Stahmer,
ME ’47
Richard C. Stallman, ME ’51*
Jon Steele, CE ’80
Mark & Janet Steidel
Mathew H. Steinberg, ME ’85 ’86
Robert Stelzner, MEMS ’76
Victor G. Stepanians, EE ’70 ’71
Damon Stevens, CS ’82,
Mathematics ’82 ’85
R. & A. L. Stevens, EE ’49*
Dr. Glen R. Stevick, ME ’81 ’93
Mr. & Mrs. James H. Stewart,
CE ’44**
John Stewart, EE ’52*
Frank V. Stickel, ME ’70 ’71,
Business ’79
Mr. & Mrs. James F. Stoll,
CE ’78*
Chuck & Barbara Stone
Marguerita Stone, CE ’73
David & Bernice Stratton,
CE ’43**
5:02 PM
Page 43
Robert & Ellen Streich,
EE ’29***
Loran W. Stringer, EE ’55
Michael J. Strum, MS ’82 ’86
John R. Struthers, MM ’38***
Albert C. Stuebing, ME ’75
Richard J. Stumpf, EE ’48
Dennis & Sophie Su, EECS ’91*
May M. Su, ME ’81
Alex A. Sugaoka, ME ’81,
Business ’90
Dr. Edward C. Sullivan, CE ’71**
Mr. & Mrs. Michael J. Sullivan,
ME ’62*
Mr. & Mrs. Tak Sumi, EE ’52***
Ted Sunada, ME ’68
Fred & Nancy Sundstrom,
MT ’49
Chia-Ling Sung, CS ’93
Ken J. Susilo, CE ’90 ’91
Stephen Sutor, EE ’82
George W. Sutton, ME ’77
Deborah Sweeley, IE ’82
John W. Swing, ME ’66*
George F. Switzer, MT ’41
Edward W. Szeto, CE ’75 ’76
Timothy C. Szto, ME ’75
Harry Tabak, EECS ’63
Bassam Tabbara, EECS ’98 ’00
Orlando A. Tafoya, ME ’53
Christine Tai, CE ’92
Thelma Tai
Toshihide Takeshita, NE ’68
Joseph & Vivien Talghader,
EECS ’93 ’95 &
EECS ’91 ’93 ’96
Albert Y. Tam, EE ’81*
Franklin W. Tam, EP ’61
Sylvia Tam, CS ’89
Yoshiaki Tamura, EE ’48
George J. Tanaka, EE ’50**
Richard I. Tanaka, EE ’50 ’51
Tom T. Tanaka, ME ’58***
Mr. & Mrs. Sanford Tandowsky,
CE ’53***
Edward Tang, EECS ’70 ’73
Irving Tang, EE ’52
Yuet-Ling Tang, CS ’84*
Glenn Y. Tango, CE ’74 ’76
Bryce G. Tanner, CEE ’98
S. Myron Tatarian, CE ’39***
James M. & Gayle R. Taylor,
EE ’50
Vern L. Taylor, PE ’35*
William H. Taylor, CE ’55*
Dr. & Mrs. George
Tchobanoglous, CE ’60
Mark I. Temme, ME ’54***
James Teng, EECS ’95 ’98
John A. Tenney, ME ’96
Hiroshi Terata, CE ’69
Paramsothy Thananjeyan, CE ’97
Teeb Thomas, IE ’49
Ragnar Thorensen, EE ’43**
David Tiberi, CE ’87*
Thomas A. Tobin, CE ’78 ’79**
Professor Masayoshi Tomizuka*
Hower Tong, EE ’63
Lawrence Tong, ME ’85
Roberto H. Torres, NE ’74
Mark M. Toyooka, ME ’91
George E. Tracadas, CE ’50
Dena R. Traina, CE ’79 ’80
Stanley R. Trost, EE ’61
Gerald L. Troup, ME ’64*
Roger D. Troxell, CE ’51 ’55
R. Rhodes & Elizabeth Trussell,
CE ’66 ’67 ’72*
Caroline M. Tsang
Richard C. Tsang, CE ’93 ’95
Gan-Tai & Joan Tseng, CE ’64***
Judy Tsujimoto
Sarina Tu, EECS ’89
Frank Tucker, EE ’80
Kenneth & Maxine Tucker,
EE ’56 ’58
Eugene & Lisa Tung, ME ’93
Charlotte Tyson, EE ’76***
Tsair-Jyh Tzong, CE ’83*
Tzou-Shin Ueng, CE ’68 ’71
Peter F. Ullmann, EE ’79 &
Victoria Harrison
Shigetoki Umeda, ME ’40*
Darren Unemori, CE ’87 ’92
James L. Unmack, EECS ’64*
Nobuo Urata
Scott Urbanik
Roger W. Van Brunt, EE ’77*
Fred Van Kirk, EE ’48 ’50
Karel-Jacque Van Marcke, IE ’62
Martin D. Van Zandt, CE ’69
Rachel Coburn Vandenberg,
CE ’86
L. C. Vann, CE ’62 ’63*
Niklas W. Vigener, CE ’92
Eldred J. Visser, EE ’63
Dr. Valentin Vitols, ME ’55*
Ron Vogel, EE ’85
Larry & Sherrie Wade, EE ’66
Jeffrey P. Wagner, CE ’73,
Business ’82
Robert Neil Wagoner, CS ’79*
Karen Wales, Applied
Mathematics ’79, CS ’79
Keith G. Wallace Jr., MX ’81 ’83
Robert Waltman, ME ’55
Anna W. Wang, EE ’80*
David Wang, EE ’72 ’76*
Ken Wang, MS ’88
Kon-Well Wang, ME ’82 ’85
Professor Paul K. C. Wang,
EE ’60
Peter S. Wang, EE ’82
Po-Min Wang, MS ’95
Timothy Wang, ME ’94
Yu-Ping Wang, EECS ’93
Greg & Rose Wasche, EE ’78
James R. Wasson, ME ’43*
Kenichi Watanabe, ME ’85
Gregory S. Waterfall, EE ’86
George Weathersby, EP ’65,
NE ’66, Business ’67
Roger R. Webster, EE ’43*
Thomas E. Weersing, ME ’66*
Larry M. Weiner, EE ’68*
Judith Weitzmann
Dr. Brent B. Welch, CS ’86 ’90
Victor Welge, EE ’33**
Richard W. Werner, ME ’51
Michael & Sandra Westall, EE
’68, Business ’80***
Mr. & Mrs. David J. Westerman,
EE ’67
Vince & Dorothea Westin, EE ’84
Robert K. Weyand, MT ’41**
The James Glen White Family,
IEOR ’79
Matthew T. White, ME ’93 ’97
Stephen R. Whiteley,
EECS ’77 ’82
Sutanto Sudiro Widjaja,
EECS ’95
Dr. & Mrs. John C. Wiesner,
EE ’58 ’66 ’70
Scott A. Wikstrom, CEE ’93 ’98
& Joy P. Villafranca, CE ’92
Patrick M. Wilhelm, EECS ’90
Alan L. Williams, ME ’78
Marvin B. Williams, CE ’69
John A. Williamson, CE ’45
Robert A. Williamson, CE ’41*
Douglas R. Willinger, EMS ’74
E. Joseph & Phyllis S. Willits,
ME ’48
Richard Wilmuth, EE ’66 ’67
Alice Wilson
George Paul Wilson,
ME ’54 ’57 ’64
James L. Wilson, IE ’72*
John T. R. Wilson, EE ’50
Scott P. Wilson, ME ’43*
Terril E. Wilson, MS ’85***
Christopher George Wiltsey, EE ’83
C. N. Winningstad, EE ’48
Frederick T. Woell Jr., ME ’57
Jack & Bette Wolf, ME ’56
Alfred E. Wolfe, EE ’52**
Hubert G. Wolff, EE ’39**
Steven B. Wolff, ME ’72
Erwin P. Wollak, CE ’51 ’53**
Eugene P. Wollak, CE ’80
James Wolters, CS ’79*
Fred Womble, EE ’45
Albert Wong, EE ’74*
Calvin & Florence Wong,
ME ’58*
Consuelo Wong**
David H. Wong, CS ’89
Denise G. Wong, MS ’90
Evan W. Wong, ME ’69 ’70**
Frederick N. Wong, EE ’71,
Business ’76
Kenny S. Wong, ME ’83 ’86
A n n u a l R e p o r t 2 0 0 0 - 01
|
43
12/5/01
Dr. & Mrs. Kwan Y. Wong,
EE ’66
Lawrence T. M. Wong
Nelson Wong, CE ’70 ’72
Orrin C. M. Wong, CE ’85*
Paul W. Wong, EE ’74*
Peter Wong, Mathematics ’64,
Statistics ’68, CE ’72
Mr. & Mrs. Pui Cheung Wong**
Roney S. Wong, EE ’73 ’81
Y. F. Wong, CE ’57**
George Q. Woo, ME ’46**
Craig N. Wood
Donald E. ( Bill ) Wood, MM ’45*
OF
Page 44
Alan D. Woodson, EE ’73
Arthur & Evelyn Woodworth,
CE ’57
Randall R. Wooley, CE ’67**
I. David Woolf, EE ’61 ’62*
Albert M. Wright, CE ’61 ’83
Albert T. Wu, EECS ’95
Ching-Liu Wu, CE ’67 ’71
Jon Wu Esq.
Leslie C. Wu, MS ’93
Robert S. Wu, EE ’53*
James W. Wuertele, EE ’64
Kenneth L. Wuest, CE ’60*
GIVING
THE BENEFITS
5:02 PM
Wayne Susumu Yamaguchi,
EE ’70
Andy Yang, EECS ’91
Faye L. Yang, EECS ’97
Jeff N. Yang, EECS ’72 ’74 ’85
John J. Yang, NECM ’97
Bin Yao, ME ’96
Peter S. Yao, EECS ’67 ’69
Sarah Yardley, CEE ’96
Bond M. Yee, CE ’72 ’73*
James H. Yee, ME ’80
Ronald P. Yee, ME ’86 ’87 ’89***
Suyih Allan Yeh, EE ’80
William C. Yeung, ME ’78
Stephen H. Yiu, EECS ’93
Jaeho S. Yoon, CE ’95 ’96
Michio Yoshii, ME ’54
Masato Yoshioka, ME ’51**
Christopher Young, CE ’83 ’85
Emory & Mary Yount, ME ’51
Mohamad A. Yousef,
CE ’65 ’77
Charles Yu, CE ’82
Danny T. Yu, CE ’93
Jacky C. Yu, CE ’76
Michael Yu, EE ’80 ’84
Peter E. Yu, CE ’94
Stanley W. Zagajeski, CE ’74 ’78
Donald C. Zapf, ME ’51
Bill E. Zehrbach, CE ’70
Kenneth V. Zerda, MT ’51 ’55
Joe Zhao, EECS ’92
Peter F. Zink, NA ’75
S TUDENT D ONORS
The following College of
Engineering students gave to
the Berkeley Engineering Fund
in honor of the class of 2001.
Students get hands-on experience
hen Chris Andrews first got to college, he didn’t know
beans about computers. “I had learned enough to play
solitaire and write papers with Microsoft Word,” says
Andrews, now a 22-year-old Berkeley senior. “That was about it.”
Three years as an EECS major gave him a solid grounding in the
fundamentals of computer science. But last fall, as he entered his
last year, Andrews felt he needed more experience to make it in
the professional world. So he applied for a job through the
Engineering Cooperative Education Program, which receives
Berkeley Engineering Fund support.
Andrews spent the spring 2001 semester at Ejasent Inc., an
Internet start-up company in the heart of the Silicon Valley. There,
he honed his programming skills and saw firsthand how things
operate in the business world. “I now have a greater appreciation
for the benefits of careful design and the dangers of an ad hoc
approach,” says Andrews, who hopes to go on to graduate school
in computer science.
W
44
|
Rachael E. Canapa, CEE
Nathan P. Chan, EECS
Jonathan P. Choy, EECS
Amanda R. Chung, EECS
Shaya Fathali, EECS
Henry Fu, ME
Kintex Ho, EECS
Jihong A. Kim, EECS
Heinz Kuo, CEE
Jung Young Lee, EECS
Darren S. Liccardo, EECS
Christine B. Ng, CEE
Ken Saito, ME/MSE
Ko We Tan, CEE
Caroline M. Tsang, CEE
Scott Urbanik, CEE
Amirali Valiani, EECS
Lawrence T. M. Wong, CEE
Craig N. Wood, EECS
T RIBUTES
Gifts to the Berkeley
Engineering Fund have been
made in honor of the following:
Kenneth Hayes
Professor Emeritus David A.
Hodges, EE ’61 ’66
Professor Roger T. Howe,
EE ’82 ’84
Professor Emeritus Edwin R. Lewis
Professor Emeritus Joseph A.
Pask
Professor David A. Patterson
Rebecca Pearson
Professor Emeritus Donald O.
Pederson
Professor Emeritus Karl S. Pister,
CE ’45 ’48
Professor Alexander C. Scordelis,
CE ’48
Jeffrey A. Shneidman, EECS ’99
Professor Emeritus John R.
Whinnery, EE ’37 ’48
Richard J. Woodward Jr., CE ’47
M EMORIALS
Gifts to the Berkeley
Engineering Fund have
been made in memory of
the following:
Professor Frank Baron
Jack R. Brown, ME ’44
Rebecca Calick
Albert R. Champion, ME ’40
William G. Chesnut, IE ’49
Gene W. Christensen,
ME ’48
Robert R. Costanza, IE ’57
Donald J. Croft, CE ’45
Professor Charles F. Dalziel,
EE ’27 ’34
Professor Emeritus Harmer E.
Davis, CE ’28 ’30
Roy J. Dewey, CE ’50
Wilma W. Duquette
Rev. George Entwisle
William L. Erdmann, ME ’49
Frank G. F. Fong, CE ’74 ’75
Jean Fox
Edgar J. Garbarini, CE ’33
Howard P. Gates Jr., EE ’39
Clive E. Ginner, CE ’47
Frances Glick
Ernest E. Hajek, ME ’44
Hugh W. Haroldson, ME ’39
Harry Heirshberg, CE ’33
Professor Emeritus Arthur M.
Hopkin
Robert M. Huang, IE ’69
Professor Charles G. Hyde
Ardeshir Jahanian
Dr. Gunars Kemanis,
EE ’53 ’55 ’63
12/5/01
John P. Kempton, CE ’39
Robert S. Kerr, CE ’38
Professor Alan D. Laird,
ME ’49 ’51
Joseph A. Lee, EE ’51
Stephen W. Lindheim, EE ’44
Earl W. McCune, EE ’56
Professor Emeritus Gordon F.
Newell
Harry G. Nickle, CE ’25
Professor Milton R. Pickus
Robert D. Proctor, MM ’41
Professor Ralph A. Seban,
ME ’38 ’40 ’48
Professor H. B. Seed
Irma Seeger
Matthew Shepherd
Isabel Stampp
Professor Robert F. Steidel Jr., ME ’55
Lew O. Stelzner
Dr. Hassan J. Tabbarah
M. Y. Tang
Chui H. Tsang
James E. Tullock, EE ’64
Lee A. Tune Jr., PE ’43 ’53
Barbara Vitols
Donald Wolters
Elizabeth B. Yocky
E STATES
Gifts or bequests have been
made to the Berkeley
Engineering Fund from the
estates of the following:
The Estate of Jerrold M. Gayner
The Estate of Dorothy D.
Johnson
The Estate of Margaret M. Lucas
The Estate of A. J. Macchi
The Estate of Roy & Lenore
Marker
The Estate of George C. Tenney
The Estate of Robert & Norma
Thorson
The Estate of Abe & Mae Tilles
E NDOWMENTS
The following benefit the
College of Engineering.
1906-19
F. W. Bradley Mining Students
Scholarship Fund
John William Mackay, Jr.,
Endowment Fund
1920-29
James Monroe McDonald
Scholarships
Pacific Coast Gas Association
Fund for Mechanical
Engineering
Lewis Tasheria Scholarship Fund
5:02 PM
Page 45
1930-39
Howard C. Holmes Scholarship
Fund
Frederick G. Kirchhoff Memorial
Fund
The Horatio Ward Stebbins
Engineering Library Fund
The Allen D. Wilson Memorial
Scholarship
1940-49
The Gustav A. Aicher Memorial
Scholarship
Harry H. Hilp Scholarships in
Engineering
The Harry Stuart & Alice
Urquhart Derby Scholarships
Charles Hunt Kilpatrick
Memorial Scholarship
Frank H. Probert Memorial
Fund
Arthur Gould Tasheira
Scholarship
W. W. Van Arsdale Memorial
Fund
1950-59
Milan G. & Douglas Milan
Arthur Memorial Fund
Joseph A. Dias Scholarship
Charles Parker Holt Memorial
Scholarships in Mechanical
Engineering
Edwin Letts Oliver Scholarship
Fund
Irving & Lucile Smith
Scholarship Fund
The Russell Severance Springer
Professorship of Mechanical
Engineering
1960-69
A. D. “Bogie” Bogart, ME ’43,
Fund Honoring his Mother,
Dr. Esther P. Bogart, M.D., on
50 Years of Service to All
People
Walter D. Briggs Scholarship
Fund
Katherina S. Desharton Fund
William McPherson Fitzhugh
Scholarship
Eugene C. & Mona Fay Gee
Scholarship
John W. Hazen Memorial Fund
Moritz H. Jaehne Memorial
Fund
Jane Lewis Fund
James Monroe McDonald
Scholarship No. 11
Newhouse Foundation
Centennial Scholarship
D. J. Pompeo Memorial
Fellowship Fund
William H. & Helena I. S.
Popert Fund
Benedict F. Raber Book Fund
Frank Schwabacher Scholarship
Fund
Charles R. Sessions Engineering
Fund
Doreen B. & Calvin K.
Townsend Scholarship Fund
Parker Davis Trask Scholarship
Fund in Geological Engineering
1970-79
Demetri Angelakos Memorial
Fund
The Earle C. Anthony Fund
Louise Cooper Endowment
Hans Albert Einstein Memorial
Fund
Henry Ford II Scholarship
George P. Forni Memorial Fund
Dr. Carl Ewald Grunsky
Memorial Fund
Phoebe Apperson Hearst
Foundation Fund
Robert Horonjeff Memorial
Grant-in-Aid
William U. Hudson & Ruth H.
Hudson Engineering Fund
Charles Loyal Huggins
Scholarship Fund
Charles Gilman Hyde Memorial
Fund
Percy H. McGauhey Memorial
Fund
Medical Physics Student-Faculty
Fund
The Melvin Fisher Parr
Genevieve Reukema Memorial
Scholarship
Arthur A. Roeser Fund
Robert B. Rothschild, Jr.
Memorial Fund
The Victor W. Sauer Scholarship
Frank Schwabacher Graduate
Fellowship Fund for
Engineering
Leslie W. Stocker Fund
D. N. Vedensky Fund
Dmitri N. Vedensky Scholarship
1980-89
Elmer Baum Scholarship Fund
The Berkeley Engineering Fund
Endowment
A. Martin Berlin Chair in
Mechanical Engineering
Donald W. & Marilyn M.
Boland Fund
Alfred L. Brosio Scholarship
Fund
Art Brown Library Fund
Lloyd S. Burr Memorial
Endowment
Edgar L. & Harold H. Buttner
Chair of Electrical Engineering
Edward G. Cahill & John R.
Cahill Chair for Civil or
Mineral Engineering
David H. Caldwell Scholarship
Fund
Roy W. Carlson & Milos Polivka
& Arthur E. Ross Fellowship
Roy W. Carlson Distinguished
Professorship in the College of
Engineering
Roy W. Carlson Professorship in
Engineering
The Corrosion Fund
John L. & June F. Cunningham
Burgess Dempster Memorial
Scholarship
Warren Y. Dere Fund
Helen & Charles Dibble
Scholarship
Mary C. & William G. Drake
Scholarship
FANUC Chair in Mechanical
Systems
Femineers Scholarship Fund
Charles N. Fisher Fund
F. Nicholas Fossati Berkeley
Engineering Fund
The Antonia Fung Memorial
Fellowship
The Kenneth N. Granthem Fund
Dr. Carl Ewald Grunsky
Memorial Fund
Eugene F. Henry Engineering
Scholarship Fund
J. H. Henry & Annie Henry
Endowment
Robert Horonjeff Chair in Civil
Engineering
Mr. & Mrs. Horace A. Johnson
Eliahu Jury Award Fund
Helen Weber & Gerald Driscoll
Kennedy Fund
The Frank & Sarah Klebanoff
Edward M. Knapik Memorial
Fund
George R. & Nina M. Kribbs
Endowment
Wilfred F. Langelier Scholarship
Fund
Alexander & Ethel Levens
Memorial Mechanical
Engineering Awards
Levine-Fricke Endowment
Robert C. Levy Scholarship Fund
The Tong Leong Lim
Pre-Doctoral Prize
T. Y. & Margaret Lin Chair
T. Y. & Margaret Lin Fund
Mr. & Mrs. Gordon R.
MacPherson Berkeley
Engineering Fund
The P. Malozemoff Chair in
Mineral Engineering
A n n u a l R e p o r t 2 0 0 0 - 01
|
45
12/5/01
John A. Martin Endowment
Margaret E. McCamish
Scholarship Fund
Donald H. McLaughlin Chair in
Mineral Engineering
Frank McQuiston Scholarship
Edgar N. Meakin Berkeley
Engineering Fund
John F. Minihan Memorial
Scholarship Fund
Francis Cecil Murphy Endowment
Byron L. & Elvira E. Nishkian
Chair in Structural Engineering
Raymond Plass Berkeley
Engineering Fund
David J. Sakrison Memorial Fund
Charles & Daisee Seffens
The Tsuneo Sekine Fund
Elaine C. Shen Memorial Prize
Fund
The Ernest & Marjory Starkman
Fellowship Endowment
Gordon M. & Merle I. Steck Cal
Club Endowed Scholarship
Fund
George C. Tenney Endowment
Fund
Ferdinand George Trescher
Scholarship Fund
The Maybelle B. & John T.
Tucker Fund
The Charles Tunstall Engineering
Fund
Li Kuo Wei & Rong Mu Yung
Scholarship Fund
William C. Williams & Phyllis
Williams Fund
Wood-Calvert Chair in
Engineering
J. K. Zee Fellowship Fund
1990-98
Robert L. & Elizabeth Wells
Jones Andresen Fund
AT&T Endowment Fund
The Beavers Heavy Construction
Scholarship
Alfred H. & Evelyn M. Brodie
Fellowship
Jack R. Brown Endowment
Albert Brutocao Fund for
Construction Engineering
CAD Fellowship Endowment
Cadence Distinguished
Engineering
Pehong Chen Distinguished
Professorship in the
Department of Electrical
Engineering & Computer
Sciences
Cheng Family Scholarship Fund
The Chiang Fellowship for
Chinese Graduate Scholars in
Manufacturing & Engineering
Arthur J. Chick Endowment
46
|
5:02 PM
Page 46
Arthur J. Chick Endowment in
Electrical Engineering &
Computer Sciences
Arthur J. Chick Endowed Chair
in Electrical Engineering &
Computer Sciences
Mrs. Chin Leung Shui Chun
Fund for Mechanical
Engineering Graduate Students
The John Coil Scholarship Fund
in Civil Engineering
Conexant Systems Distinguished
Professorship in Electrical
Sciences
Dr. Richard Carl Dehmel
Distinguished Professorship in
the College of Engineering
Thomas & Marjorie Dwelle
Fellowship
Howard D. Eberhart Memorial
Scholarship
FANUC Endowment
Thomas P. Faulconer & Lillian
M. Faulconer Fund
D. Jackson & Sara-Louise
Faustman Fellowship
James Fife Chair in Engineering
William S. Floyd, Jr.
Engineering
F. S. Foote Memorial Scholarship
Fund in Civil Engineering
Ford Management of Technology
Program Endowment
The Howard ’50 & Carmel ’50
Friesen Engineering Library
Book Endowment
Will C. Hall Family Chair in
Engineering
Will C. Hall Family Scholarship
Fund in Engineering
Hamilton Family Memorial
Fund
Liston F. Hills Scholarship
C. Lester Hogan Chair in
Computer Sciences
Peter Alex Horn Fellowship
Roscoe & Elizabeth Hughes
Chair in Mechanical
Engineering
The Information & Technology
Fund in Computer Science
Horace, Dorothy & Katherine
Johnson Chair in Engineering
The Horace, Dorothy &
Katherine Johnson Scholarship
Fund
Herman W. & Jane W. Jurkovich
Scholarship Fund
Otto & Herta F. Kornei
Endowment Fund
Kriss Innovation Fund
Louis & Grace Kurkjian
Engineering Scholarship Fund
Eugene L. Lawler Scholarship for
Disadvantaged Students
Homer & Mabel Lee
Endowment Fund in the
Thomas K. & Margaret C. Lew
Fund
Wing L. Lew Scholarship Fund
in the College of Engineering
Professor T. Y. Lin Fellowship in
Structural Engineering
The Frank and Margaret Lucas
Scholarship Fund
Mackay Chair in Computer
Sciences
Lenore Mary & Roy C. Marker
Scholarship Fund in
Colonel Robert Bradford
Marshall & Myra Crow
Marshall Fund
John G. Maurer Scholarship
Lee C. & Ruth S. McFarland
Fund
The James Meakin Endowment
Fund in Mechanical
Engineering
Diven & Marian Meredith Fund
Charles Alexander Miller
Endowment Fund
Mote Family Fund
Louis F. Moullet Memorial
Scholarship
NEC Dean’s Endowment for
Engineering
NEC Distinguished
Professorship
NEC New Century Fund for
Engineering
Cheryl & John Neerhout, Jr.
Engineering
Nortel Networks Distinguished
Professorship in Electrical
Sciences
Robert N. Noyce Memorial
Fellowship
Robert N. Noyce Memorial
Fellowship in Microelectronics
Shigeru Omori Scholarship
Arthur C. & Phyllis G.
Oppenheimer Chair in
Advanced Materials Analysis
Orselli Engineering Scholarship
Fund
A. J. & Catherine Orselli Fund
Maxine Pao Memorial Fellowship
Fund
The Donald O. Pederson
Electrical Engineering
Lawrence E. Peirano Chair in
Civil & Environmental
Engineering
Robert S. Pepper Chair in
Computer Sciences
Dean Karl S. Pister
Endowment
James W. Plummer Endowment
Roy N. Poage Memorial
Scholarship in Mechanical
Engineering
Project Management Institute —
Steven V. White Fellowship
Fund
Frank A. Ryder Memorial
Scholarship
Professor Alexander C. Scordelis
Fellowship in Structural
Engineering
Ralph A. Seban Heat Transfer
Fellowship
Harry Bolton Seed Award
H. Bolton Seed Memorial
Fellowship Fund
Barton W. Shackelford &
Charlaine M. Shackelford Fund
Awtar & Teji Singh Fellowship
Fund in Civil Engineering
Robert F. Steidel, Jr. Memorial
Fund in Mechanical
Engineering
The Albert B. & Ruth M.
Stevens Research Fund
Roger A. Strauch Chair in
Computer Sciences
Taisei Chair in Civil Engineering
Daniel M. Tellep Distinguished
Professorship
Chang-Lin Tien Graduate
Fellowship in Mechanical
Engineering
Trussell Fellowship in
Environmental Engineering
Lewis & Olga Tuthill Scholarship
Fund
Hank Suz-Chi Wan Memorial
Scholarship
Gerard C. Weeshoff Fund for
Civil Engineering
James Marshall Wells Academic
Chair in Mechanical
Engineering
John R. Whinnery Chair in
Computer Sciences
Harold E. Woodworth
Engineering Fund
Zeilinger Staff Excellence Award
2000
Robert Rocco Costanza
Industrial Engineering and
Operations Research
Scholarship Fund
Bill and Kay Craven Fellowship
Fund in Bioengineering
Andrew S. Grove Distinguished
Engineering
Lester John Lloyd and Lynne
Dewar Lloyd Fellowship Fund
in Bioengineering
12/5/01
Lester John Lloyd and Lynne
Dewar Lloyd Distinguished
Engineering
The O’Shaughnessy Scholarship
Fund
The Homer Powley Fund in
Siebel Scholars Program
Arnold and Barbara Silverman
Bioengineering
Mark D. Weiser Excellence in
Computing Scholarship
2001
John C. Shimmick Scholarship
in Engineering
Parikh Scholars Fund
The Art, Mary and Kevin Fong
The John S. and Elizabeth H.
Lewis Bioengineering
Fellowship Fund
National Semiconductor
Paul and Stacy Jacobs
Engineering
The George C. Tenney
Endowment
Industrial
Liaison
Program
Berkeley’s Industrial Liaison
Program (ILP) encourages cooperation and exchange between
industry and the College of
Engineering. Through working
relationships with engineering
faculty and graduate students,
ILP member companies have
timely access to research results,
get to know top students entering the job market, and sometimes arrange collaborative work
with Berkeley’s distinguished
engineering faculty.
For the College, this vital tie to
industry adds new perspectives to
academic programs, helps identify emerging areas of research, and
secures crucial aid for equipment,
research, and instruction.
For information on corporate
participation in and support of
the College of Engineering, contact
5:02 PM
Page 47
the University of California,
College of Engineering,
Industrial Liaison Program, 208
McLaughlin Hall #1722,
Berkeley, CA 94720-1722; e-mail
[email protected]; call
510/642-6611; or visit
www.coe.berkeley.edu/~ilp.
D ONOR O RGANIZATIONS
The following corporations,
foundations, and organizations generously support the
College of Engineering.
3Com Corporation*
AB Sandvik Coromat
Abbott Laboratories*
Adaptec, Inc.
ADC Telecommunications, Inc.*
Adept Technology, Inc.
Adkan Engineers
Adobe Systems, Inc.*
Adriatic Research Institute
Advanced Computational
Software
Advanced Integrated
Photonics, Inc.
Advanced Micro Devices*
Advantest America R&D
Center, Inc.
Aerospace Corporation
Agilent Technologies, Inc.*
Alcoa Foundation*
ALCOA*
Alcorn Fence Company
Alien Technology Corporation
Allied-Signal Foundation, Inc.*
Alps Electric Company, Ltd.
Altera Corporation
American Cargo Quilts, Inc.
American Institute of Steel
Construction, Inc.
American Nuclear Society
Ameron International
Analog Devices, Inc.*
Anatech Research Corporation*
Anchor Environmental, L.L.C.
Andersen Consulting*
Anheuser-Busch*
Applied Materials, Inc.
ARCO Foundation, Inc.*
Ashcraft Design
ASML Technology Development
Center
Astra Pharmaceuticals*
AT&T Bell Laboratories*
AT&T Foundation*
AT&T
Atheros Communications, Inc.
ATMEL Corporation
Autodesk Inc.
Automobile Club of Southern
California
Azriel Benaroya Medical
Services PC
Bandwidth 9, Inc.
BankAmerica Foundation*
Barclays Global Investors*
Bechtel Foundation*
Bechtel Group, Inc.*
Bell Communications
Research, Inc.*
Bellcore*
BellSouth Telecommunications*
Berkeley Design Technology, Inc.
Blue Fox, Inc.
Blue Martini Software
BMW of North America, Inc.
Boeing Company*
Booz, Allen & Hamilton
Bovis Lend Lease
BP America*
BP Amoco*
BroadVision
Brutoco Engineering &
Construction, Inc.
Cadence Design Systems, Inc.*
Cahill Contractors, Inc.
Calix Networks, Inc.
Capital Group Companies, Inc.*
Carnegie Mellon University
CH2M Hill Foundation
Chevron Information
Technology Company*
Chevron Overseas Petroleum, Inc.
Chevron USA, Inc.*
Cisco Systems, Inc.*
Citicorp Foundation*
The Clorox Company
Foundation*
CollegeHire.com, Inc.
Compaq Computer
Corporation*
Computer Graphics Systems
Development Corp.
Computers and Structures, Inc.
ComSilica, Inc.
Concentric Network
Corporation
Conexant Systems Charitable
Fund*
Conexant Systems, Inc.*
Construction Enterprises, Inc.
Cooper Industries Foundation*
Cornell University
Corning Incorporated
Foundation*
Covalent Materials, Inc.
Crandall Consultants, Inc.
Cubic Science, Inc.
Cypress Semiconductor
Daimler Chrysler
Deloitte & Touche Consulting
Group*
Delta Airlines*
Deutsche Bank*
Dexter Corporation, Hysol
Division*
Dicon Fiberoptics, Inc.
Digital Fountain
Dow AgroSciences
Dow Chemical Company
Foundation*
Eastman Kodak Company
Electromagnetic Instruments,
Inc.
Electronic Industries Alliance
Electronics for Imaging
Ellipsis Digital System
EMC Corporation
Emitronix, Inc.
Employer’s Advocate for
Construction Employer’s
Association
Encap Motor Corporation
Engineering Alumni Society of
Northern California
Engineering Alumni Society of
Southern California
Enron Engineering &
Construction Corporation*
Entergy Operations, Inc.*
Epicentric, Inc.
Equiva Services, LLC*
Ericsson Radio Systems AB
Ernst & Young*
Extengine Transport Systems, LLC
Exxon Company
Exxon Education Foundation*
Exxon Production Research
Company*
Fair, Isaac & Co, Inc.
Fairchild Semiconductor
Corporation
Fanuc, Ltd.
Federal National Mortage
Association (Fannie Mae)*
Fidelity Foundation*
Ford Motor Company Fund
Ford Motor Company*
Foster Wheeler Corporation*
Frank Electric Company
Franklin Reinforcing Steel
Co., Inc.
Fremont Group Foundation*
Fry’s Electronics
Fuji Electric Company, Ltd.
Fujitsu America, Inc.
Fujitsu Laboratories, Ltd.
Fujitsu, Ltd.
FX Palo Alto Laboratory
GE Fund*
GenCorp Foundation, Inc.*
General Dynamics Corporation*
General Electric Company*
General Mills Foundation*
General Motors Higher
Education Matching Program*
General Nanotechnology, LLC
Genoa Corporation
GJH Rebar Services, Inc.
Goldman, Sachs & Company*
The Goodyear Tire &
Rubber Co.*
* matching gift program
member
A n n u a l R e p o r t 2 0 0 0 - 01
|
47
12/5/01
Google, Inc.
Guidant Foundation
Hewlett-Packard Company*
Hitachi, Ltd.
HMT Technology Corporation
Homestake Mining Company*
Honeywell Foundation*
Honeywell, Inc.*
HRL Laboratories, LLC
Hughes Aircraft Company*
Hughes Electronics Corporation*
Hutchinson Technology, Inc.
Infineon Technologies AG
Informatica Corporation
Inktomi Corporation
Integrated Micro Instruments
Intel Corporation*
Intel Foundation
International Business Machines
Corporation*
International Business Machines
International Foundation
Iomega Corporation
Ion Diagnostics, Inc.
ISH, Inc.
Ishikawajima-Harima Heavy
Industries Co., Ltd.
Japan Nuclear Cycle
Development Institute
JEM America Corporation
Jet Propulsion Laboratory
Kasdan, Simonds, McIntyre,
Epstein & Martin
Kaslan Associates, Inc.
Kawasaki Steel Corporation
KDD R&D Laboratories, Inc.
Kennedy-Jenks Consultants, Inc.*
Kerr-McGee Corporation*
Kiewit Pacific Company
Kimes Morris Construction
Kleenair Systems, Inc.
Komag, Inc.*
KPMG Peat Marwick*
La Jolla Microsystems Institute
Lakeside Foundation
Lam Research Corporation
Lamberson Koster & Company
Lawrence Berkeley National
Laboratory
Lean Construction Institute
Leigh Fisher Associates, Inc.
Lend Lease Real Estate
Investments, Inc.*
Lincoln Financial Group
Foundation, Inc.*
Linear Technology Corporation
Lockheed Martin Corporation*
Lockheed Martin Missiles &
Space Company
Lucent Technologies
Foundation*
Lucent Technologies
Luxnet Corporation
Martinez Steel Corporation
Marvell Semiconductor
Materials for the Future
Foundation
48
|
5:02 PM
Page 48
Matrix Semiconductor, Inc.
Matsushita Electric Industrial
Company, Ltd.
Matsushita Kotobuki Electronics
Peripherals of America, Inc.
Mattel Foundation*
Maxtor Corporation
Medtronic Foundation*
MEMS Precision Instruments
Merck & Company, Inc.*
Metreo Markets, Inc.
Microassembly Technology
Microgen Systems, Inc.
Micron Technology, Inc.
Microsoft Corporation*
Miller/Thompson
Constructors, Inc.
MIPS Technologies, Inc.
Mitsubishi Electric Research
Laboratories, Inc.
Mitsubishi Materials Corporation
Mitsubishi Silicon America
Mobil Foundation, Inc.*
Mobil Oil Corporation*
Moca, Inc.
Molecular Dynamics*
Molecular Reflection, Inc.
Moravec Associates
Morgan Stanley & Company*
Morphics Technology, Inc.
Motorola Foundation*
MyTurn.com, Inc.
Nanochip, Inc.
National Agricultural
Cooperative Federation
National Semiconductor
Corporation*
National Storage Industry
Consortium
NEC Corporation
NEC Electronics, Inc.
NEC USA, Inc.*
Newhall Land and Farming
Company*
Newport News Shipbuilding*
Nichia America Corporation
Nippon Steel Corporation
Nissan Motor Company, Ltd.
NKK America, Inc.
Nokia, Inc.
Nortel Networks
North Bay Truck Body
NSK, Ltd.
NTT Multimedia
Communications
Laboratories, Inc.
Occidental Petroleum
Corporation*
Okawa Foundation
The Olympic Club
OMM, Inc.
Onix Microsystems, Inc.
Oracle Corporation*
Oriental Motor Co., Ltd.
Ove Arup & Partners
California, Ltd.
Owen Pacific
Owens-Corning Fiberglas
Corporation*
Pacific Gas and Electric
Company*
Peoples Energy*
Perkin-Elmer Corporation*
Peterson Tractor Company
Pfizer Foundation*
Pharmacia and Upjohn
Foundation*
Phi Delta Theta Moms Club
The Philips Electronics North
American Corporation*
Phillips Petroleum Company
Phillips Petroleum
Foundation, Inc.*
Photon Imaging, Inc.
Pixar
Polaroid Corporation*
Portocork America, Inc.
PQ Corporation*
Pricewaterhouse Coopers
Foundation*
Pro Analysis As
The Procter & Gamble Fund*
Progressant Technologies, Inc.
Prostate Cancer Research &
Education Foundation
Providian Financial Corporation*
The Quaker Oats Foundation*
Qualcomm, Inc.
Quantum Corporation
QuickLogic Corporation
Quidnunc
Rambus, Inc.
Raytheon Company*
Read-Rite Corporation
Regional Airport Authority
Renault
Robert Bosch Corporation
Rockwell International
Corporation*
Rutherford and Chekene
SAE Magnetics (H.K.), Ltd.
SBC Foundation*
Scale Eight
Science Applications
International Corporation*
Scitor Corporation*
Seagate*
SEMATECH
Semiconductor Research
Corporation
Shell Oil Company Foundation*
Shimmick Construction Co., Inc.
Shure, Inc.
Silicon Graphics, Inc.*
Silicon Valley Group, Inc.
The Simons Foundation
Simpson Gumpertz & Heger, Inc.
Skilling Ward Magnusson
Barkshire
SkyFlow, Inc.
SMP Technology
Society of Petroleum Engineers
Y & H Soda Foundation
Solar Turbines, Inc.*
Sonics, Inc.
Sony Corporation of America
Foundation, Inc.*
Sony Corporation*
Southern California Edison
Company*
Southern California Gas
Company*
Sprint
SRI International
Law Offices of Stanton, Kay &
Watson
Stefan Merli Plastering Co., Inc.
STMicroelectronics, Inc.
Stone & Webster Engineering
Corporation*
Storage Technology Corporation*
Structural Steel Educational
Council
Sulzermedica
Sumitomo Sitix Silicon, Inc.
Sun Microsystems*
Superior Gunite
Sutter & Enslein
Swinerton Inc.
Synopsys, Inc.
Tektronix Foundation*
Telcordia Technologies*
Teledyne Charitable Trust
Foundation*
Teradyne, Inc.
Texaco Philanthropic
Foundation, Inc.*
Texaco USA*
Texas Instruments Foundation*
Texas Instruments
Thales Optronique
Tokyo Gas Co., Ltd.
Toshiba Corporation
Triple R Heavy Haul, Inc.
TRW Foundation*
TRW Space and Defense*
TRW, Inc.*
United Technologies
Corporation*
United Way
University of Queensland
Unocal Foundation*
USX Corporation*
Varco International, Inc.*
Verizon Foundation*
VMware, Inc.
WaveMarket, Inc.
Western Digital Corporation
Westinghouse Educational
Foundation
Whitaker Foundation
Whitley, Burchett and
Associates, Inc.
World Tradeways Shipping, Ltd.*
Xerox Corporation*
Xerox Foundation*
Xerox Palo Alto Research Center
Xilinx*
Yahoo!, Inc.*
* matching gift program
member
12/5/01
5:02 PM
Page 49
COMING EVENTS
IN
BERKELEY ENGINEERING
Hearst Memorial Mining Building
Renovation Tours
Friday, January 25
Friday, February 22
Friday, March 29
Friday, April 26
Berkeley Campus, 3:30 p.m.
Join alumni and friends for a first-hand look at the renovation and seismic retrofit in progress at the Hearst Memorial
Mining Building, one of Berkeley’s most historic and
beautiful sites. There is no charge for the tour, and light
refreshments will be served at the construction site. RSVP
to EAS, 510/643-7100 or [email protected].
Distinguished Engineering
Alumnus Awards
Saturday, February 23
The Claremont Hotel, Berkeley
Join EAS for a gala dinner and a multimedia presentation
to honor this year’s DEAA winners. Presented annually
since 1975, the award recognizes exceptional achievement in research, industry, education, and public service.
Recipients were announced last fall, but the event was
postponed until February. Reservations are required.
510/643-7100.
Cal Day 2002
Saturday, April 20
Berkeley Campus, 9 a.m.-4 p.m.
Come to campus for Cal Day, Berkeley’s annual open
house. The College will host several events – including
receptions, faculty talks, open labs, and demonstrations.
Information for prospective students and families will be
highlighted. EAS will offer a box lunch on the Trefethen
Terrace atop the Bechtel Engineering Center.
510/643-7100.
Commencement
Saturday, May 25
Hearst Greek Theatre, Berkeley Campus, 9 a.m.
Family, graduates, alumni, faculty, and friends will gather
for a morning filled with processions, pomp and circumstance, and photographs. 510/643-7992.
12/5/01
5:02 PM
Public Affairs Office
Berkeley CA 94720-1704
Address Service Requested
Page 50
NonProfit Org.
U.S. Postage
P A I D
University of
California
Forefront

eng-0301117_4frnt_UCP (P*)

Transcription

Similar documents

Funeral Services For Mrs. Jennie Thompson are rteld

2010 Part 2

CNTEAEDITION2Newsletter - Colts Neck Township Education

Longhorn New s

Important Dates First in Math - Clark

August 2015 - Northwest Alabama FCA

Learning out of class…

open morning 27th June shaun.indd

Gay man`s wife reels from news

rolling knolls rockets