Pages 41-50 - The Logic Group

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Tab~ets current~y supported by The Logic Group
Important Note:
the user can use the tablets listed below with The
Logic Group's software with different switch settings by installing the
"Other" tablet option and inputting the needed tablet information.
1. SummaGraphics
12" x 12" (MM1201)
SummaSketch
no switch settings
2. SummaGraphics
switches
Professional
12" x 18"
(MM1812)
On
1:
1,2,3
(only these switches need to be set)
Note:
The newer SummaGraphics Professional does not have dip
switches; therefor, no switch settings or changes need to be made from
the factory default.
3. SummaGraphics
MicroGrid
II
The software program driver for the MicroGrid uses the default
switch settings when the tablet is shipped from the manufacturer.
Since Switch 2 is inside the controller box and difficult to change,
we recommend customizing our driver to handle the existing switch settings. The default settings are:
Switch 1
Outside
1,4,5
2,3,6,7,8
On
Off
Switch 2
Inside
2,5,6
1,3,4
7,8
On
Off
Does not matter
4. Numonics
2200
switches
Small tablets - 12x12 and 20x20
A:
1,2,3,4,6,7,8
5
on/close
off/open
B:
3,5,8
1,2,4,6,7
on/close
off/open
For larger Numonics tablets, install the Numonics, copy the driver
file, then modify. The ASCII output needs to be increased by 2 bytes
and the y start needs to be increased by one byte.
See the Other
Tablet section for an example.
Page 40
I
5. GTCO
Digi-pad
switches
6. Calcomp
2000
Type 5A
All sizes
1:
3,4,8
1,2,5,6,7
on
off
2:
1,2,3,4,5
6,7,8
on
off
3:
8
1,2,3,4,6,7
5
on
off
on for 16 button
off others
cursor,
All Sizes
Programs require 9600 baud, even parity, 7 stop bits,
200 lpi resolution, 40 pps rate, ASCII output, 13 bytes.
7. Calcomp 2300
All Sizes
This tablet is completely
Summagraphics
MM1201
patible.
User install for either a Summa 12x12 or
for Calcomp 2300 drivers.
No switch settings.
8. Calcomp
2500
2 data bits,
and
MM1812
com-
All Sizes
The programs use the Calcomp 2000 driver for the Calcomp 2500. The
program requires 9600 baud, even parity, 7 stop bits, 2 data bits, Calcomp 2000 emulation, 200 lpi resolution, 40 bps rate, ASCII output 13
bytes. The switch settings are:
Switch Bank 1
Switch Bank 2
Switch Bank 3
Switch Bank 4
Switch Bank 5
1,2,3,4,5,6,7,8
2,4,7
1,3,5,6,8
1,2,3,4,5,6,7,8
1,2,4,6,7
3,5,8
1,3,4,5,6,7
8
2
0
0
1
0
0
1
0
1
*
* Depends on the serial cable whether to send data in pin 2 or pin 3.
Recommendation is to leave this switch unchanged.
Page 41
9.
Kurta IS/One
The Kurta IS/One can either be used as a Kurta tablet or it can be
used to emulate a Summagraphics SummaSketch
(under a different set of
switches) .
The switch settings to use the tablet as a Kurta IS One
are:
Switch A
3,4,5,6,7
1,2,8
Up
Down
Switch B
3,5,7,8
1,2,4,6
Up
Down
Switch C
2
1,3,4
5,6,7,8
DDUU
DDUD
Up
Down
Depends on tablet
for 12 x 18
for 12 x 12
Switch PS
1,2,3,4,5,6,7,8
Down
Switch MB
4
Up
Down
10. Kurta Series
size
One
1,2,3
11. Others - The user can input the tablet commands and formats for
other tablets (see Create/Modify Driver) or the above tablets to allow
for different switch settings.
Please note that the Calcomp 2300, GTCO Micro Digi-Pad, Houston Instruments HiPad Plus, Hitachi Tiger Tablet II, Hitachi Puma Pro, and Selko
Screenplay are all SummaGraphics compatible after appropriately changing the switch settings.
Users may wish to install these tablets accordingly.
Page 42
Notes on Binary Drivers
.~
The driver for Binary data requires that the bits for the X and Y
coordinates not reside in a byte that also contains flag or button information (i.e. the X information is all in one or two bytes and the Y
information is in another one to two bytes).
Almost all binary formats
adhere to this convention and the drivers will work.
The following tablets
work with the software:
are known to have binary
Calcomp 2000, 2200, 2300, 2500
GTCO DP5 Binary Low, M07
Hitachi: HDG1111, 1515 Binary Low
Kurta Series 1, Format 1,3
Summagraphics BitPad 1,2, SummaSketch,
formats
MicroGrid
which will
II.
A few binary formats combine the last two bits of X coordinates
with the flag and button information in the first byte.
Our driver cannot handle this.
To remedy this situation, either change the binary
format or change to ASCII output.
Below is a list of tablets with this
problem and suggested remedy:
1. GTCO DP5 Binary High Resolution
Resolution
~
Remedy: Either change
output to ASCII.
2. Kurta Series
Remedy:
and Hitachi
to low resolution
1 Binary Format
Change to Binary
format
Binary
HDG111,
1515 Binary High
(200 lpi) or change
the
2 Output
1 or 3, or change to ASCII
format 4.
3. Kurta Series 2 Binary
Remedy:
Change to ASCII
4. Numonics
Remedy:
output
2200
Change to ASCII output
Note:
For most
software commands
be changed.
tablets the output format can be changed through
(using our driver) and the tablet switches need not
Page 43
Tablet
Name:
Company:
Phone:
Program:
Installation
- ASCII Format
Date:
LOGDIGI
Tablet Make:
Model#:
Switch Settings:
Dip Switch #
1
2
4
3
5
6
7
Switch Bank 1:
Switch Bank 2:
Switch Bank 3:
Driver
Installed:
Serial Port:
Y Length:
Tablet:
X Length:
Setup Tablet
(Other)
Communications:
Tablet Name:
Baud Rate:
Parity:
Stop Bit:
Data Bit:
Commands:
Reset:
Point Mode:
Switch Stream:
Increment:
Initial Setup:
Tablet Infor.:
X Length:
Y Length:
Resolution:
Data Format:
# of Bytes:
ASCII/Binary:
Tablet Echo:
ASCII Format:
X Start:
X Length:
Y Start:
Y Length:
Last Byte:
Important Notes:
Page 44
8
Tablet
Name:
Company:
Phone:
Program:
Installation
- Binary Format
Date:
LOGDIGI
Tablet Make:
Model#:
Switch Settings:
Dip Switch #
1
2
3
4
5
6
7
Switch Bank 1:
Switch Bank 2:
Switch Bank 3:
Driver
Installed:
Serial Port:
Y Length:
Tablet:
X Length:
Setup Tablet
(Other)
Communications:
Tablet Name:
Baud Rate:
Parity:
Stop Bit:
Data Bit:
Commands:
Reset:
Point Mode:
Switch Stream:
Increment:
Initial Setup:
Tablet
Data Format:
# of Bytes:
ASCII/Binary:
Tablet Echo:
Infor.:
X Length:
Y Length:
Resolution:
Binary Format:
Byte #1:
Byte #2:
Byte #3:
Byte #4:
Byte #5:
X
Y
Important Notes:
Page 45
8
Appendix
B - Reference
Codes
Log Reference
Code
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Name
Units
Depth
Tf
Rmf
Rm
Rmc
Ft
h
Ri
SSP
Rw-SP
NaCl
Ca
Mg
HC03
K
S04
C03
I
Br
N03
NH4
Li
NaCl-Eq
Rw
K
of
Ohm-m
Ohm-m
Ohm-m
Ft
Ohm-m
milli V
Ohm-m
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
ppm
Ohm-m
%
25
Rsfl c
Ohm-m
26
Ohm-m
API unit
API unit
API unit
33
Rw-Finl
GR-min
GR-max
GR
Vsh-oldr
Vsh-Tert
Vsh-Inx
TH
34
Rl18 c
Ohrn-m
35
mcsec/ft
mcsec/ft
mcsec/ft
mcsec/ft
40
Vsh-Finl
del t
del t ma
del t fl
del t sh
Flu Type
41
blk den
27
28
29
30
31
32
36
37
38
39
%
%
%
%
%
g/cc
Codes - The Logic Group
Description
Depth
Formation Temperature
Mud Filtrate Resistivity at Tf
Mud Resistivity at Tf
Mud Cake Resistivity at Tf
Formation Thickness
Induction Resistivity
Static Spontaneous Potential
Water Resistivity - SP log
Water NaCl Ion Concentration
Water Ca Ion Concentration
Water Mg Ion Concentration
Water HC03 Ion Concentration
Water K Ion Concentration
Water S04 Ion Concentration
Water C03 Ion Concentration
Water lIon Concentration
Water Br Ion Concentration
Water N03 Ion Concentration
Water NH4 Ion Concentration
Water Li Ion Concentration
Equivalent NaCl Concentration
Water Resistivity from the salinity
Potassium Concentration (Spectralog)
Resistivity from Spherically Focused Log Corrected for borehole diameter
Final Water Resistivity
Minimum Gamma Ray (clean sand)
Maximum Gamma Ray (shale zone)
Gamma Ray log reading
Shale Volume - older method
Shale Volume - tertairy method
Shale Volume - Index method
Thorium Concentration (Spectralog)
Resistivity from Lateralog-8 corrected
for borehole diameter
Final Shale Volume
Sonic Travel Time - log reading
Matrix sonic travel time
Fluid sonic travel time
Shale sonic travel time
Fluid Type for sonic calculations
(I-Water, 2-0il, 3-Gas)
Bulk Density - log reading
Page 46
Log Reference
Codes
Code
Name
Units
Description
42
43
44
45
46
47
48
49
50
51
ma den
fl den
sh den
PHI Neut
Phi N Sh
den x
den y
den z
Neut x
Neut y
Neut z
Sonic x
Sonic y
Sonic z
Vol x
Vol y
Vol z
Neut Fl
HC den
Res HC
Sxo
g/cc
g/cc
g/cc
Matrix bulk density
Fluid bulk density
Shale bulk density
Neutron Porosity - log reading
Shale neutron porosity
X Lithology matrix bulk density
Y Lithology matrix bulk density
Z Lithology matrix bulk density
X Lithology neutron porosity
Y Lithology neutron porosity
Z Lithology neutron porosity
X Lithology matrix sonic travel time
Y Lithology matrix sonic travel time
Z Lithology matrix sonic travel time
Computed volume of X Lithology
Computed volume of Y Lithology
Computed volume of Z Lithology
Fluid neutron porosity
Hydrocarbon density
Residual hydrocarbon saturation
Flushed zone water saturation
Gas Correction Factor
Microlog 2-inch resistivity
Microlog 1" x 1" resistivity
Mud cake thickness
Microlateralog resistivity
Proximity log resistivity
Porosity - Sonic method
Porosity - Density method
Porosity - Neutron method
Porosity - density & neutron method
Porosity - sonic & neutron method
Crossplot M factor
Crossplot N factor
Asquith RSL used in Rz/RSL in ratio
method
Porosity - density with gas correction
Porosity - neutron with gas correction
Porosity - density and neutron with gas
correction
Porosity - from Rxo
Crossplot A factor
Crossplot K factor
Not Used
Porosity - from Microlog
Dispersed clay resistivity
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
%
%
g/cc
g/cc
g/cc
%
%
%
mcsec/ft
mcsec/ft
mcsec/ft
%
%
%
%
gms/cc
%
%
X
R2
R1x1
MC Thick
RMll
Rpl
Por-Son
Por-Den
Por-Neu
Por-D+N
Por-S+N
Ohm-m
Ohm-m
in
Ohm-m
Ohm-m
%
%
%
%
%
M
N
RSL
Ohm-m
77
78
79
Por-DenG
Por-NeuG
Por-D+Ng
%
%
%
80
81
82
83
84
85
Por-Rxo
%
A
K
Por-ML
Rdis
%
Ohm-m
-----------------------------------------
Page 47
Log Reference
Code
86
Name
Units
Gamma
%
89
90
91
92
93
Por-Finl
Rl18
Rim
Rid
Dia
Rsfl
Rxo-DLL8
Ohm-m
Ohm-m
Ohm-m
in
Ohm-m
Ohm-m
94
Rxo - DSFL
Ohm-m
87
88
95
Rxo-DFoc
96
97
98
99
Rxo-ML
Rxo-MLL
Rxo-PL
Ohm-m
Ohm-m
Ohm-m
Ohm-m
100
102
Di
Di
in
in
103
Di
in
104
105
106
Rf
Rxo-Finl
Rt-DuLL8
Ohm-m
Ohm-m
Ohm-m
107
Rt-DuSFL
Ohm-m
108
Rt-DLRxo
Ohm-m
109
Rt-DuFoc
Ohm-m
101
110
111
112
113
114
115
116
Por-Dual
Rt-Final
a
m
n
119
120
Rz
PSP
x
Rsh
PHI Eff
121
122
Vdis
Sw-Arch
117
118
%
Ohm-m
Ohm-m
milli V
Ohm-m
%
%
%
Codes
Description
Dual Water constant relating shale
density porosity and shale neutron
porosity
Final Porosity
Lateralog-8 Resistivity
Medium Induction resistivity
Deep Induction resistivity
Borehole diameter
Spherically Focused Log resistivity
Flushed Zone Resistivity - Dual Induction
Lateralog-8 Tornado Chart
Flushed Zone Resistivity - Dual Induction
SFL Tornado Chart
Flushed Zone Resistivity - Dual Induction
Focused Tornado Chart
Not Used
Flushed Zone Resistivity - Microlog
Flushed Zone Resistivity - Microlateralog
Flushed Zone Resistivity - Proximity Log
Not Used
Depth of Invasion
Dual Induction SFL
Depth of Invasion - Deep Induction
Lateralog Rxo
Depth of Invasion
Dual Induction
Focused
Focused Resistivity
Final Flushed Zone Resistivity
True Formation resistivity - Dual
Induction Lateralog-8 Tornado Chart
True formation resistivity - Dual
Induction SFL Tornado Chart
True formation resistivity - Deep Induction - Lateralog - Rxo Tornado Chart
True Formation resistivity - Dual Induction Focused Log
Not Used
Porosity - Dual Water method
Final True Formation Resistivity
Archie constant
Cementation constant
Saturation constant
Resistivity of the mixed waters
Pseudo Static Spontaneous Potential
Invasion constant (Sw ratio method)
Shale resistivity
Computes effective porosity for shaly
sand analysis
Dispersed shale volume
Water Saturation - Archie equation
Page 48
Log Reference
Code
Name
Units
123
124
125
Sw-Rocky
Sw-Ratio
Sw-Total
%
126
Sw-Lamin
%
127
Sw-Disp
%
128
129
Sw-Fertl
Sw-D & S
%
%
130
131
132
133
134
135
Sw-DuH20
BVW
%
Sw-Final
OH
CNL/SNP
%
ppm
136
NP scale
137
Lith
%
%
138
139
140
141
142
143
Den Por
SH Por
Rwl Tl
%
Ohm-m
144
145
T1
Rw-Rwl
of
Ohm-m
146
147
148
149
150
151
152
152
154
Rwa
Rw-Rwa
Ohm-m
Ohm-m
%
R lId
R lIs
Rt dll
Ohm-m
Ohm-m
Ohm-m
155
Rxo dll
Ohm-m
156
DI dll
in
157-169
170
Pe
Barns/ele
Codes
Description
Water Saturation - Rocky mountain method
Water Saturation - Ratio method
Water Saturation - Total Shaly Sand
(Simandoux)
Water Saturation - Laminated shaly sand
(Poupon)
Water Saturation - Dispersed shaly sand
(DeWitte)
Water Saturation - Fertl shaly sand
Water Saturation - Density and sonic
method
Water Saturation - Dual Water method
Bulk Volume Water
Not Used
Final Water Saturation
Water OH Ion Concentration
Neutron Log Type (I-Compensated NL,
2-Sidewall NP)
Neutron Apparent Porosity Scale
(I-SS, 2-LS, 3-DO)
Lithology (I-Sandstone, 2-Limestone,
3-Dolomite)
Not Used
Not Used
Not Used
Apparent Density Porosity - log reading
Shale Porosity
Water Resistivity at measured Temperature
Tl
Measured Temp for Rwl
Computed Water Resistivity - using Rw at
Tl
Rwa values
Water Resistivity - minimum Rwa method
Not Used
Not Used
Not Used
Not Used
Lateralog Deep Resistivity
Lateralog Shallow Resistivity
True Formation Resistivity - Dual
Lateralog Rxo Tornado Chart
Flushed Zone Resistivity for dual
lateralog
Depth of Invasion - dual lateralog
tornado chart
Not Used - For use by clients
Photoeletron Cross Section
(Litho Density)
Page 49
Log Reference
Codes
.r=>:
Code
171
172
173
174
175
176-199
200
Name
--------
Units
Description
------q
cpt
%
Caliper
in
Not Used
q factor - shale producibility index
Not Used
Not Used
Total Porosity - shaly sand methods
Not Used - For use by Clients
Caliper log curve
Note: LOGAN has an option to perform calculations
in- these units or
Metric units.
Using LOGAUTO and EDITFILE, data and results can be done
in metric units.
Page 50