| /dports/comms/hackrf-devel/hackrf-ee44d2d62e2dd24648599172f90fc8fc2e3b3cc3/firmware/cpld/sgpio_debug/ |
| H A D | Makefile | 9 DESIGN=top macro
15 OUTFILES_XST=$(DESIGN).ngc $(DESIGN).syr $(DESIGN).ngr $(DESIGN)_xst.xrpt $(DESIGN).lso _xmsgs/xst.…
16 OUTFILES_NGDBUILD=$(DESIGN).ngd $(DESIGN).bld $(DESIGN)_ngdbuild.xrpt _xmsgs/ngdbuild.xmsgs _ngo/ne…
17 …DESIGN).vm6 $(DESIGN).tspec t6.phd t6.dat t55.phd t55.dat t1.phd t1.dat $(DESIGN).log $(DESIGN).ch…
24 $(DESIGN).ngc: $(DESIGN).xst $(DESIGN).prj
26 xst -intstyle ise -ifn $(DESIGN).xst -ofn $(DESIGN).syr
28 $(DESIGN).ngd: $(DESIGN).ngc $(DESIGN).ucf
29 …dbuild -intstyle ise -dd _ngo -uc $(DESIGN).ucf -p $(DEVICE)-$(DEVICE_PACKAGE)-$(DEVICE_SPEED) $(D…
31 $(DESIGN).vm6: $(DESIGN).ngd
34 $(DESIGN).jed: $(DESIGN).vm6
[all …]
|
| /dports/comms/hackrf-devel/hackrf-ee44d2d62e2dd24648599172f90fc8fc2e3b3cc3/firmware/cpld/sgpio_if/ |
| H A D | Makefile | 9 DESIGN=top macro
15 OUTFILES_XST=$(DESIGN).ngc $(DESIGN).syr $(DESIGN).ngr $(DESIGN)_xst.xrpt $(DESIGN).lso _xmsgs/xst.…
16 OUTFILES_NGDBUILD=$(DESIGN).ngd $(DESIGN).bld $(DESIGN)_ngdbuild.xrpt _xmsgs/ngdbuild.xmsgs _ngo/ne…
17 …DESIGN).vm6 $(DESIGN).tspec t6.phd t6.dat t55.phd t55.dat t1.phd t1.dat $(DESIGN).log $(DESIGN).ch…
24 $(DESIGN).ngc: $(DESIGN).xst $(DESIGN).prj
26 xst -intstyle ise -ifn $(DESIGN).xst -ofn $(DESIGN).syr
28 $(DESIGN).ngd: $(DESIGN).ngc $(DESIGN).ucf
29 …dbuild -intstyle ise -dd _ngo -uc $(DESIGN).ucf -p $(DEVICE)-$(DEVICE_PACKAGE)-$(DEVICE_SPEED) $(D…
31 $(DESIGN).vm6: $(DESIGN).ngd
34 $(DESIGN).jed: $(DESIGN).vm6
[all …]
|
| /dports/graphics/dataplot/dataplot-2c1b27601a3b7523449de612613eadeead9a8f70/lib/dex/ |
| H A D | CC3.DAT | 1 3-FACTOR CENTRAL COMPOSITE DESIGN
5 NOTE--THIS DESIGN IS A COMBINATION OF A
6 1) 2**3 FACTORIAL DESIGN WITH 3 CENTER POINTS; AND
7 2) 3-DIMENSIONAL STAR DESIGN WITH 3 CENTER POINTS
8 NOTE--THIS DESIGN IS FREQUENTLY RUN IN 2 STAGES--
9 1) 2**3 FACTORIAL DESIGN WITH 3 CENTER POINTS
10 (THE FIRST 11 DESIGN POINTS)
11 2) 3-FACTOR STAR DESIGN WITH 3 CENTER POINTS
12 (THE LAST 9 DESIGN POINTS)
15 NOTE--THIS IS A "RESPONSE SURFACE DESIGN"
|
| H A D | CC2.DAT | 1 2-FACTOR CENTRAL COMPOSITE DESIGN
5 NOTE--THIS DESIGN IS A COMBINATION OF A
6 1) 2**2 FACTORIAL DESIGN WITH 2 CENTER POINTS; AND
7 2) 2-FACTOR STAR WITH 2 CENTER POINTS DESIGN
8 NOTE--THIS DESIGN IS FREQUENTLY RUN IN 2 STAGES--
9 1) 2**2 FACTORAIAL DESIGN WITH 2 CENTER POINTS
10 (THE FIRST 6 DESIGN POINTS)
11 2) 2-FACTOR STAR WITH 2 CENTER POINTS DESIGN
12 (THE LAST 6 DESIGN POINTS)
15 NOTE--THIS IS A "RESPONSE SURFACE DESIGN"
|
| H A D | PB24.DAT | 1 THIS IS DATAPLOT DESIGN OF EXPERIMENT FILE PB24.DAT
2 PLACKETT-BURMAN 24-RUN DESIGN
5 NUMBER OF RUNS = 24 (A SATURATED DESIGN)
11 AN 23-FACTOR DESIGN HAS 23*22/2 = 253 2-TERM INTERACTIONS.
12 THE CONFOUNDING FOR THIS DESIGN IS SEVERE--
26 NOTE--THIS DESIGN IS EQUIVALENT TO A
27 TAGUCHI L24 DESIGN
29 DESIGN SHOULD BE RUN IN RANDOM ORDER.
|
| H A D | PB12.DAT | 1 THIS IS DATAPLOT DESIGN OF EXPERIMENT FILE PB12.DAT
2 PLACKETT-BURMAN 12-RUN DESIGN
5 NUMBER OF RUNS = 12 (A SATURATED DESIGN)
11 AN 11-FACTOR DESIGN HAS 11*10/2 = 55 2-TERM INTERACTIONS.
12 THE CONFOUNDING FOR THIS DESIGN IS SEVERE--
30 NOTE--THIS DESIGN IS EQUIVALENT TO A
31 TAGUCHI L12 DESIGN
33 DESIGN SHOULD BE RUN IN RANDOM ORDER.
|
| H A D | PB20.DAT | 1 THIS IS DATAPLOT DESIGN OF EXPERIMENT FILE PB20.DAT
2 PLACKETT-BURMAN 20-RUN DESIGN
5 NUMBER OF RUNS = 20 (A SATURATED DESIGN)
11 AN 19-FACTOR DESIGN HAS 19*18/2 = 171 2-TERM INTERACTIONS.
12 THE CONFOUNDING FOR THIS DESIGN IS SEVERE--
29 NOTE--THIS DESIGN IS EQUIVALENT TO A
30 TAGUCHI L20 DESIGN
32 DESIGN SHOULD BE RUN IN RANDOM ORDER.
|
| H A D | PB36.DAT | 1 THIS IS DATAPLOT DESIGN OF EXPERIMENT FILE PB36.DAT
2 PLACKETT-BURMAN 36-RUN DESIGN
5 NUMBER OF RUNS = 36 (A SATURATED DESIGN)
11 A 35-FACTOR DESIGN HAS 35*34/2 = 595 2-TERM INTERACTIONS.
12 THE CONFOUNDING FOR THIS DESIGN IS SEVERE--
26 DESIGN SHOULD BE RUN IN RANDOM ORDER.
|
| H A D | PB28.DAT | 1 THIS IS DATAPLOT DESIGN OF EXPERIMENT FILE PB28.DAT
2 PLACKETT-BURMAN 28-RUN DESIGN
5 NUMBER OF RUNS = 28 (A SATURATED DESIGN)
11 AN 27-FACTOR DESIGN HAS 27*26/2 = 351 2-TERM INTERACTIONS.
12 THE CONFOUNDING FOR THIS DESIGN IS SEVERE--
26 DESIGN SHOULD BE RUN IN RANDOM ORDER.
|
| H A D | L9.DAT | 1 TAGUCHI L9 ORTHOGONAL DESIGN
6 NOTE--THIS DESIGN IS EQUIVALENT TO A
7 3**(4-2) FRACTIONAL FACTORIAL DESIGN.
8 REFERENCE--BARKER, QUALITY BY EXP. DESIGN, PAGES 74-87.
9 NOTE--THIS DESIGN IS EQUIVALENT TO A
|
| H A D | 2TO15M11.DAT | 1 2**(15-11) FRACTIONAL FACTORIAL DESIGN
4 NUMBER OF OBSERVATIONS = 16 (A SATURATED DESIGN)
27 NOTE--THIS DESIGN IS EQUIVALENT TO A TAGUCHI L16 DESIGN
36 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO3M1.DAT | 1 2**(3-1) FRACTIONAL FACTORIAL DESIGN
4 NUMBER OF OBSERVATIONS = 4 (A SATURATED DESIGN)
19 NOTE--THIS DESIGN IS EQUIVALENT TO A TAGUCHI L4 DESIGN
27 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO31M26.DAT | 1 2**(31-26) FRACTIONAL FACTORIAL DESIGN
4 NUMBER OF OBSERVATIONS = 32 (A SATURATED DESIGN)
43 NOTE--THIS DESIGN IS EQUIVALENT TO A TAGUCHI L32 DESIGN
52 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO10.DAT | 1 THIS IS DATAPLOT DESIGN-OF-EXPERIMENT FILE 2TO10.DAT
2 2**10 (FULL) FACTORIAL DESIGN
6 NOTE--SINCE THIS IS A FULL FACTORIAL DESIGN,
17 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO8.DAT | 1 THIS IS DATAPLOT DESIGN-OF-EXPERIMENT FILE 2TO8.DAT
2 2**8 (FULL) FACTORIAL DESIGN
6 NOTE--SINCE THIS IS A FULL FACTORIAL DESIGN,
17 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO9.DAT | 1 THIS IS DATAPLOT DESIGN-OF-EXPERIMENT FILE 2TO9.DAT
2 2**9 (FULL) FACTORIAL DESIGN
6 NOTE--SINCE THIS IS A FULL FACTORIAL DESIGN,
17 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| H A D | 2TO4.DAT | 1 THIS IS DATAPLOT DESIGN-OF-EXPERIMENT FILE 2TO4.DAT
2 2**4 (FULL) FACTORIAL DESIGN
6 NOTE--SINCE THIS IS A FULL FACTORIAL DESIGN,
17 NOTE--IN THE DESIGN BELOW, "-1" REPRESENTS THE "LOW" SETTING OF A FACTOR
|
| /dports/math/gap/gap-4.11.0/pkg/design-1.7/doc/ |
| H A D | design.tex | 8 \def\DESIGN{\sf DESIGN}
15 This manual describes the {\DESIGN}~1.7 package for {\GAP}. The {\DESIGN}
19 The {\DESIGN} package is Copyright {\copyright} Leonard H. Soicher
24 {\DESIGN} is free software; you can redistribute it and/or modify
33 L.H.~Soicher, The DESIGN package for GAP, Version 1.7, 2019,
40 \Section{Installing the DESIGN Package}
42 The {\DESIGN} package is included in the standard {\GAP}
58 \Section{Loading DESIGN}
68 \Section{The structure of a block design in DESIGN}
78 {\DESIGN} functions only work for *binary* block designs
[all …]
|
| /dports/math/gap/gap-4.11.0/pkg/design-1.7/ |
| H A D | README.md | 1 The DESIGN Package for GAP
4 The DESIGN package is for constructing, classifying, partitioning,
7 The DESIGN package is Copyright (C) Leonard H. Soicher 2003--2019.
9 DESIGN is free software; you can redistribute it and/or modify
15 Please reference your use of the DESIGN package in a published work
18 L.H. Soicher, The DESIGN package for GAP, Version 1.7, 2019,
23 Installing the DESIGN Package
27 only need to download and install DESIGN if you need to install
28 the package locally or are installing an upgrade of DESIGN to an
37 The DESIGN package is written entirely in GAP code, and requires
[all …]
|
| H A D | CHANGES.md | 1 Main changes from DESIGN 1.6 to DESIGN 1.7 (March 2019)
13 5. DESIGN package is now hosted on github.
19 Main change from DESIGN 1.5 to DESIGN 1.6 (November 2011)
24 Main changes from DESIGN 1.4 to DESIGN 1.5
39 Main changes from DESIGN 1.3 to DESIGN 1.4
62 Main changes from DESIGN 1.2 to DESIGN 1.3
77 Main changes from DESIGN 1.1 to DESIGN 1.2
118 Main changes from DESIGN 1.0 to DESIGN 1.1
122 DESIGN 1.1 works only with GAP 4.4/GRAPE 4.2/GAPDoc.
128 minimal expansion and writing out, which is a *change* from DESIGN 1.0.
|
| /dports/graphics/dataplot/dataplot-2c1b27601a3b7523449de612613eadeead9a8f70/lib/frmenus/clas/anov/ |
| H A D | KENTON.DP | 5 DELETE Y DESIGN STORE
7 READ KENTON.DAT Y DESIGN STORE
13 BLOCK PLOT Y STORE DESIGN
15 ANOVA Y DESIGN STORE
|
| /dports/cad/openroad/OpenROAD-2.0/src/OpenDB/test/data/ |
| H A D | parser_test.def | 5 DESIGN counter ;
10 DESIGN ER_routing_mode STRING "trial_opt" ;
16 DESIGN FE_CORE_BOX_LL_X REAL 0.420 ;
17 DESIGN FE_CORE_BOX_UR_X REAL 67.032 ;
18 DESIGN FE_CORE_BOX_LL_Y REAL 0.448 ;
19 DESIGN FE_CORE_BOX_UR_Y REAL 66.208 ;
20 DESIGN strprop STRING "aString" ;
21 DESIGN intprop INTEGER 1 ;
22 DESIGN realprop REAL 1.1 ;
23 DESIGN intrangeprop INTEGER RANGE 1 100 25 ;
[all …]
|
| /dports/graphics/dataplot/dataplot-2c1b27601a3b7523449de612613eadeead9a8f70/lib/data/ |
| H A D | BOXYIEL3.DAT | 5 THIS IS THE STAGE 2 RESPONSE SURFACE DESIGN
6 DESIGN = 2**2 DESIGN WITH DOUBLE CENTER POINT
7 AUGMENTED WITH STAR DESIGN
|
| H A D | ESSEX.DAT | 1 1987 DESIGN OF EXPERIMENT ESSEX TAPE DATA
5 2**(7-4) FRACTIONAL FACTORIAL DESIGN (L8)
14 FACTOR 5 = RISER DESIGN (2 LEVELS--SINGLE & DOUBLE)
15 FACTOR 6 = MOLD DESIGN (2 LEVELS--POCKET & NO-POCKET)
|
| /dports/cad/openroad/OpenROAD-2.0/src/OpenDB/test/ |
| H A D | parser_test.defok | 4 DESIGN counter ;
7 DESIGN ER_routing_mode STRING "trial_opt" ;
8 DESIGN FE_CORE_BOX_LL_X REAL 0.42 ;
9 DESIGN FE_CORE_BOX_UR_X REAL 67.032 ;
10 DESIGN FE_CORE_BOX_LL_Y REAL 0.448 ;
11 DESIGN FE_CORE_BOX_UR_Y REAL 66.208 ;
12 DESIGN strprop STRING "aString" ;
13 DESIGN intprop INTEGER 1 ;
14 DESIGN realprop REAL 1.1 ;
15 DESIGN intrangeprop INTEGER RANGE 1 100 25 ;
[all …]
|