Offete Enterprises, Inc.
Updated 12/6/1999
This page is at the Ultra Technology dot com website.
Ultra Technology offers information on all
Offete Enterprise, Inc. Products here
and of the two Offete Boards that UltraTechnology supports in the
UltraTecnology Online Store.
Offete Enterprises, Inc. is run by Dr. C. H. Ting. Dr. Ting is an active
supporter and former board member of the
Forth Interest Group. Offete Enterprises has a long
product list including versions of Forth for many systems, and
documentation on some popular public domain Forth systems. Offete
Enterprises is marketing the
MuP21 Microprocessor.
OFFETE ENTERPRISES, INC.
NEW PRODUCTS
4123 Volume 23, 20,ドル November 1998. 80C51XA eForth, 8051 eForth
2.02, Shadow ROM model, token thread 8051 eForth, and Forth
multiplocessing.
4124 Volume 24, 20,ドル November 1999. P8 microprocessor on
XC4005XL, Improvements on eForth model, Firmware Engineering Workshop,
P16 simulator, 6805 eForth and code nuggets.
1015 Firmware Engineering Workshop, C. H. Ting-- 50ドル.00
2140 80C51XA eForth, C. H. Ting--25ドル.00
2141 6805 eForth, C. H. Ting--25ドル.00
2142 8086 eForth Version 2.02, C. H. Ting--25ドル.00
2143 8051 eForth Version 2.03, C. H. Ting--25ドル.00
BOOKS
1002 Forth Notebook, C. H. Ting--25ドル.00
1003 Inside F83, C. H. Ting--25ドル.00
1004 F83 Source, H. Laxen & M. Perry--25ドル.00
1007 F-PC User's Manual, C. H. Ting--20ドル.00
1008 F-PC Technical Reference Manual, C. H. Ting--30ドル.00
1010 Systems Guide to figForth, C. H. Ting, 2nd Ed.--25ドル.00
1011 Forth Notebook, Vol.2, C. H. Ting, 2nd Ed.--25ドル.00
1012 Seeing Forth by Jack J. Woehr-- 15ドル.00
1013 eForth and Zen, C. H. Ting-- 15ドル.00
1014 MuP21 Programming Manual, Second Edition, C. H. Ting--
25ドル.00
1015 Firmware Engineering Workshop, C. H. Ting-- 50ドル.00
DISKS
2102 F-PC V3.56, Tom Zimmer--25ドル.00
2103 LaForth, LaFarr Stuart and Robert L. Smith--25ドル.00
2104 8086 eForth Model, Bill Muench and C. H. Ting--25ドル.00
2105 8051 eForth, C. H. Ting--25ドル.00
2106 The Forth Course, Richard H. Haskell--25ドル.00
2107 68000 eForth, Richard H. Haskell--25ドル.00
2108 32-Bit 8086 eForth, Rick VanNorman--25ドル.00
2109 Z80 eForth, Ken Chen--25ドル.00
2110 Subroutine Threaded eForth, R. H. Haskell--25ドル.00
2111 F-PC User Contributions-- 25ドル.00
2112 32-Bit 386 eForth, C. H. Ting--25ドル.00
2114 68HC11 eForth, Karl Lunt--25ドル.00
2115 8098/96 eForth, Kezhong Ting--25ドル-00
This eForth for the Intel 8098/96 family of microcontroller is contributed by an
author from Nanjing, People's Republic of China. Also includes a 8096
assembler written in FPC.
2116 eForth Experiments, Pal Alm, 25ドル.00
2117 Pic17C42 eForth, C. H. Ting--25ドル.00
2118 The First Course, C. H. Ting--25ドル.00
2120 8051 and 68HC11 eForth, W. Schemmert--25ドル.00
2121 Transputer eForth, Bob Barr--25ドル.00
2122 386 eForth on DPMI, Rick VanNorman--25ドル.00
2123 386 OK, V3.1, Chuck Moore--75ドル.00
2124 MIPS eForth, C. H. Ting--25ドル.00
2125 H8 eForth, Bernie Mentink--25ドル.00
2126 7810 eForth, John Talbert--25ドル.00
2127 FPC-ak, Arnold Klingelnberg--30ドル.00
2128 FPC User AK1, Arnold Klingelnberg--25ドル.00
2129 F95, Tom Zimmer and Andrew McKewan--25ドル.00
2130 The Second Course, C. H. Ting--20ドル.00
2131 The Third Course, C. H. Ting--20ドル.00
2132 CT100 Lab Board User Manual, C. H. Ting--20ドル.00
2133 32-Bit 386 eForth V.4.02, C. H. Ting--25ドル.00
2134 32-Bit 386 eForth V.4.03, C. H. Ting--25ドル.00
2135 56002 eForth, Dave Taliaferro--25ドル.00
2136 68HC16 eForth, Pete Zawasky--25ドル.00
2137 Froth, Oliver Singla--25ドル.00
2138 Java eForth, Michael Losh--25ドル.00
2139 PowePC eForth, C. H. Ting--25ドル.00
2140 80C51XA eForth, C. H. Ting--25ドル.00
2141 6805 eForth, C. H. Ting--25ドル.00
2142 8086 eForth Version 2.02, C. H. Ting--25ドル.00
2143 8051 eForth Version 2.03, C. H. Ting--25ドル.00
FORTH ENGINE PUBLICATIONS
4001 Footsteps in an Empty Valley, C. H. Ting--25ドル.00
4002 Tiny Nodula2 for cmForth, Steve Lhor--25ドル.00
4003 Indelko RTX2000 Kit--150ドル.00
4004 Indelko RTX2001A Kit--150ドル.00
4005 ShBoom Microprocessor, An Applications Manual--25ドル.00
4006 RTX Supplement to Footsteps in an Empty Valley, C. H. Ting--
10ドル.00
4010 MuP21 Chip designed by Chuck Moore, 25ドル
High performance, low power 20-bit microprocessor with memory coprocessor
and video coprocessor. 40-pin plastic DIP package. Peak execution speed 80
MIPS at 5V. Volume discount available.
4011 MuP21 Evaluation Kit, 100ドル
Include MuP21, a printed circuit board, a 128KB EPROM, instructions and
assembler diskette. Build your own stand-alone MuP21 development system.
Great for evaluation and experimenting.
4012 Assembled MuP21 Evaluation Kit, 250ドル
MuP21 system with 1Mx20 DRAM, 128KB EPROM, and 8-bit parallel I/O
ports. Apply 5V power and it generates NTSC signals to drive a color TV
monitor. Manual, MuP21 assembler and sample code included to guide
application development.
1014 MuP21 Programming Manual, C. H. Ting-- 25ドル.00
4013 MuP21 Advanced Assembler, Robert Patten, 50ドル
Easy to use and powerful assembler for coding MuP21 applications. Code are
organized in 1K word pages. Local words in a page cannot be accidentally
referenced from other pages. Global words can be referenced anywhere.
Assembler generates up to 64KB of object code which can be burnt into
EPROM to boot MuP21.
4014 P21Forth V1.0.1, Jeff Fox, 50ドル (free at UT website)
An extended eForth gives Forth users a familiar environment to develop
applications in Forth. Include serial and parallel I/O ports, multitasker, graphic
utilities, and many other useful tools to support software development. System
and application source code included.
4015 MuP21 eForth V2.04, C. H. Ting, 25ドル
This is a simple, generic implementation of eForth Model on MuP21. It 's
purposes is educational, for a new user to understand how MuP21 works and to
write MuP21 code himself. It is built from a simple metacompiler extended
from Chuck Moore's OK system.
4016 Ceramic MuP21 Prototype Chip, 150ドル
MuP21 packaged in 40-pin ceramic package. It does not have the timing
restriction on A! instruction. Works between 4.5 to 6.0 volts. Very limited
supply.
4018 MuP21H Chip in PLCC, 40ドル
MuP21 is now available in 44-pin PLCC packages. It has much smaller (1/3
footprint compared to DIP, and is suitable for surface mount.
4019 MuP21H Evaluation Kit, 100ドル
Include PLCC MuP21H, a printed circuit board, a 128KB EPROM with eForth
V2.08, instructions and assembler diskette. Build your own stand-alone MuP21
development system with 82C51 UART.
4020 Assembled MuP21H Evaluation Kit, 250ドル
MuP21 system with 1Mx20 DRAM, 128KB EPROM eForth V2.08, and 82C51
UART to talk to PC host. Apply 5V power and it generates NTSC signals to
drive a color TV monitor. Manual, MuP21 assembler and sample code included
to guide application development.
MORE ON FORTH ENGINES, Ed. C. H. Ting
Vol. 1-17 15ドル.00
4101 Volume 1, July 1986. Fig-Tree style forum on NC4000. Topics
including bugs, products, tips, benchmarks, and Chuck Moore's teleconference.
4102 Volume 2, October 1986. NC4000 Users Group's Newsletter.
Hardware enhancements, software and many utility programs.
4103 Volume 3, January 1987. NC6000/5000 advanced information,
QUAN, DEPTH, and CASE, DROP, PICK, battery power supply, floating
point, A/D converters, and more.
4104 Volume 4, April 1987. Chuck Moore's AppNotes 1-7, line drawing,
screen editor, 32 bit Forth engine design, Fourier transform, and Tiny Modula 2.
4105 Volume 5, July 1987. Chuck Moore's AppNotes8-15, Harris
FORCE Toolbox, Fk3 parallel processing system, BX probe, high speed pattern
generator, and 32 bit Forth engine simulator.
4106 Volume 6, Nov. 1987. mpForth, MIDI interface, multiplier-
accumulator, Yin-Yang, NC4000 decompiler, Harris FORCE and MISC M17.
4107 Volume 7, Mar. 1988. cmForth (Dec. 1987 , AT/FORCE technical
notes, fixes for interrupt, interface to Intel chips, cross compiler, decompiler
and debugger.
4108 Volume 8, May 1988. 8 Application Notes from Novix and 2 from
VME, Inc., covering wide range of topics, including disk drives, T1 switch,
laser printer server, and more on interrupts.
4109 Volume 9, Nov. 1988. F68HC11, Super8, RTX2000 Forth chips.
NC4000 LISP kernel, non-optimizing compiler, decompiler, and parallel
processor structures.
4110 Volume 10, Jan. 1989. RTX cmForth/cross assembler, RTX reprints
from 1988 Rochester Forth Conference, trainable neuronets on NC4000 and
MARC4, a 4-bit Forth CMOS microcomputer.
4111 Volume 11, July 1989. RTX interrupts/utilities from S. Lohr, Silicon
Composers on SC32, a 32 bit Forth engine, and RTX supplement to Footsteps in
an Empty Valley by C. H. Ting. Revised for RTX cmForth Version 3.0, April
1990.
4112 Volume 12, April 1990. Fast sortings, Continuous Fourier
Transform, phase angle measurement device, pigForth project, ShBoom
microprocessor instruction set, and Neural network board.
4113 Volume 13, October 1990. Lohr's infix expression compiler,
lightweight multitasker, AZForth. Ting's 8051 eForth and real time Fourier
transform. Paul Ulrich's PALs.
4114 Volume 14, July 1991. Chuck Moore's MuP20 spec and its eForth
implementation by Ting. RTX pocket oscilloscope by Harry Winter, DOS file
system for NC4000 by Dwight Elvey, Z80 eForth systems implemented by Ken
Chen and Dave Langren.
4115 Volume 15, January 1992. Chuck Moore's new CAD system, John
Ribles's QS1 and QS2 chips, Ting's hacking CMOS VLSI, more on eForth and
more on FPC.
4116 Volume 16, September 1992. Chuck Moore's new OK system and
P20 application notes, Ting's P20A2 board, 386 protected mode eForth, and
Schlesisiek's FRP1600 from Germany.
4117 Volume 17, May 1993. P21 Specifications, eForth for PIC17C42,
8051 and 6811 eForth from Schemmert, Transputer eForth from Bob Barr, and
386 eForth with DPMI from VanNorman.
4118 Volume 18, 20,ドル June 1994. P21 source code. Chuck Moore's
OK4.3 and 4.4, Jeff Fox's p21 eForth, and C. H. Ting's eForth kernel and
OKCHAR and layout printing to Deskjet 550C.
4119 Volume 19, 20,ドル March 1995. P21 eForth source code by C. H.
Ting. MuP21 Macro Assembler on MASM by Mark Coffman. Decriptions on
Jeff Fox's P21Forth and Robert Patten's Advanced Assembler. Other MuP21
related articles and tidbits.
4120 Volume 20, 20,ドル September 1995. Chuck Moore's three patents for
NC4000, RTX2000, and ShBoom. Ting's exploration of the video coprocessor
in MuP21 on many rectangle drawing routines and audio generation to play
Bach's Two Part Inventions
4121 Volume 21, 20,ドル August 1996. New MuP21H Kit, CT100 Lab
Board, 32bit 386 eForth in ROM, laws of computing, Zen of state machines,
ShBoom spec, Fieldbuss Controller and P16 microprocessor design.
4122 Volume 22, 20,ドル September 1997. P16 microprocessor designs in
schematics, QuickLogic FPGA, Verilog and VHDL. Java eForth by Losh, and
PowerPC eForth by Ting.
4123 Volume 23, 20,ドル November 1998. 80C51XA eForth, 8051 eForth
2.02, Shadow ROM model, token thread 8051 eForth, and Forth
multiprocessing.
4124 Volume 24, 20,ドル November 1999. P8 microprocessor on Xilinx
XC4005XL, improvements on eForth model, Firmware Engineering Workshop,
P16 simulator, 6805 eForth and code nuggets.
MISCELLANEOUS
9001 PC Organ, C. H. Ting--15ドル.00
9002 Parallel Interface Card for PC--159ドル.00
9003 Forth ROM Card for Apple II--50ドル.0
Language card with Forth-79 in ROM, with 6502 assembler and Starting Forth
editor. Turn Apple II into a Forth machine.
9004 79-Forth ROM for Apple II--10ドル.00
9005 Forth for the complete Idiot--7ドル.00
9006 Neural Computing Module NCM3232--85ドル.00
9007 VLSI Hacker's Kit, C. H. Ting--50ドル.00
9008 CT-100 Lab Board, 250ドル.00
PRODUCTS CATALOG
January 2000
A tutorial in 4 parts for building firmware for embedded systems, based on
enhanced eForth. Hands-on experiments using CT100 Lab Board with 8051.
8086 eForth 2.02 and 8051 eForth 2.03 are included with the original eForth
1.01 for 8086 and 8051.
Indirect Threaded eForth for Philips' 16-bit 8051 extended architecture clone.
Extended so that it forms a self-contained firmware development system using
the Shadow ROM model.
Subroutine threaded eForth is ported to 6805. Fully optimized so that the
interpreter and compiler run as fast as possible.
Enhanced eForth for 8086. Name and code dictionary unified. It can load
source code from DOS text files and dump EXE file image. It is useful to
develop substantial applications in the DOS environment.
Enhanced eForth for 8051. Optimized using subroutine threading. Name and
code dictionary unified. It can load source code and dump core image through
the serial port. It is useful to develop substantial applications.
Large collection of examples of Forth programming style in solving moderate
to complicated problems. Topics include: games, instrument control, image
processing and analysis, microassembler, and more.
Everything you want to know about the Perry-Laxen F83 system but afraid to
ask. 288 packed pages divided into 4 parts: tutorial on F83 system, the kernel,
utility, and 8086 specific tools. It is based on F83 Version 2.1 for the IBM-PC,
but useful as a reference manual for all other F83 systems.
Complete source of F83 for 8080, 8086, and 68000 CPUs. With a short tutorial
and a sorted index.
Manual for above F-PC Forth system. 10 chapters on installation, programming
tools, sequential file and editor, extended memory, DOS interface, PASM
assembler, utilities and user contributions. Including a complete glossary.
Narration on all words in the kernel of F-PC. Functional description of the
utilities and applications. Valuable guide to F-PC internals and assembly coding
in PC. 300 pages.
The most authoritative treatise on how's and why's of the fig-Forth model
developed by Bill Ragsdale. Internal structure of the Forth system New edition
printed using a laser printer.
Revised edition. ROMmable F83 system, Forth on Harris 80 and VAX, 8086
and 68000 disassemblers, high density parallel processor systems using NCR
GAPP chips, array processing with FPS AP120B, electronic organ music,
neural network simulation, Chinese limericks, and many more.
'Forth in the context of the intellectual threads of our time.' A well published
Forth author expounding on the philosophy of Forth. Between articles, Jack
inserts many interesting Forth code written in JForth for Amiga.
Complete description and exposition of the eForth kernel, high level words,
interpreter, compiler and utilities. Comparison of Forth and Zen, their
similarities in historical development and in their strife towards simplicity and
understanding.
Primary reference for MuP21 microprocessor. Architecture, instruction set,
video coprocessor programming, assembler, bootstrap code, Chuck Moores's
OK demonstration system, and his lectures on P21 and OK. With MuP21H
update.
A tutorial in 4 parts for building firmware for embedded systems, based on
enhanced eForth. Hands-on experiments using CT100 Lab Board with 8051.
8086 eForth 2.02 and 8051 eForth 2.03 are included with the original eForth
1.01 for 8086 and 8051.
File based, 1M byte addressing space, very fat Forth system, built by Tom
Zimmer and associates. Nice editor, floating point packages, pre- and post-fix
assembler, decompiler, disassembler, debugger, multi-tasker, TCOM target
compilers for 8086, 6805, 80196 and lots more. Now released on two 1.2M
disks.
A highly optimized, lean and mean experimental Forth system for MSDOS PC.
It interprets words instead of lines of text. Graphic structure commands.
Downloads text file from PC. 128 threads hashed dictionary. Many other
controversial features.
A small portable Forth system designed for microprocessors of the 90's. 31
machine dependent kernel words and 191 high level words. Separated code and
name dictionaries. Source code is in Microsoft MASM assembly. Disk and
eForth Implementation Guide.
A small ROM based Forth system for the popular Intel 8051/31 microcontroller.
Source code is in Microsoft MASM assembly. Easily modifiable to suit specific
ROM/RAM configurations. Source code on an IBM 5.25" disk. With 8051
eForth Implementation Note.
A self learning tutorial based on FPC 3.50. 11 machine loadable lessons lead
you from Forth fundamentals to 8086 interrupt services at your own pace.
Invaluable in getting yourself familiar with the very massive FPC system.
Manual and disk.
A 32-bit 68000 implementation of eForth for the Motorola ECB Board. Dr.
Ting also contributed a file in that MASM is forced to produce code in the
Motorola byte order.
This is a 32 bit implementation of eForth for 80x8x family of processors. Much
of the high level code are rewritten in assembly to improve the performance.
The object code is generated by a Forth metacompiler (included , not from
MASM source. Many other utilities are provided and are good eForth coding
examples.
Ken Chen is a member of Taiwan FIG Chapter. He moved eForth to the popular
Z80 processor with significant enhancement. It also contains a diagnostic
program for eForth which allows the implementor to debug eForth during cold
boot.
Dr. Haskell recoded eForth using subroutine threading so that all high level
words can be executed and tested as coded words. This disk includes 68000,
68HC11 and 8086 implementations with a host interface in F-PC.
Most extensive collection of F-PC applications. 80 files contributed by users
over the last three years. Covers everything from graphics, oops to Walsh
transform. Two 1.2M disks.
This is a 32 bit implementation of eForth for 80386 in the protected mode. It
comes with Al Williams' DOS extender and calls DOS keyboard and screen
services.
This eForth is based on a public domain 68HC11 assembler ASM11. The native
assembler makes it easier for the user to extend the eForth and optimize the
kernel for specific applications.
Pal published PalForth. This eForth is target compiled from PalForth. PalForth,
target compiler and 8086 assembler are all included in this system. It shows
how much the MASM irritates people who had ascended metacompilation.
eForth for Microchip's 16-bit high performance microcontroller. Written in
ASM17 assembler.
An introductory course on F-PC for people new to Forth. Six lessons cover
topics like input/output, stack operations, math operations, and programming.
Many examples are offered to guide self-study. Manual and disk.
Opitmized eForth for 8051 and 68HC11, written in native UCASM assemblers.
Most of the documentation is in German. Supplied with EFTERM terminal
emulator.
eForth for Inmos 32-bit transputers. This is an experimental implementation not
yet tested on a Transputer system. Volunteers are welcome to put this system to
the test.
This eForth runs under Windows through the DPMI interface. 32-bit registers
and addressing space in the protected mode.
A new user interface to 386 computers by Chuck Moore. It has a multi-layered
menu system using 7 keys. Runs in 386 protected mode with greatly simplified
DOS interface. Documentation prepared by C. H. Ting.
eForth implemented for MIPS microprocessors in Silicon Graphics Workstation.
Use a small C loader and call I/O routines in C library.
Mentink of New Zealand contributed this eForth for H8/532 from Hitachi. H8 is
very powerful. It has on-chip counter/timers, 3 PWM, 10-bit A/D, 65 I/O pins,
1Kb ram 32 Kb OTP ROM, 20 MHz crystal.
John Talbert at Oberlin Observatory contributed this for NEC78C10. 7810 has
3 8-bit I/O ports, 8-bit A/d, serial I/O, 256 bytes of RAM and 10 16-bit registers.
Another powerful Japanese microcontroller.
A streamlined FPC system built by Arnold Klingelnber in Germany. Many
demo programs, instant install, and much improved hypertext help system.
User contributions collected by Arnold Klingelnberg in Germany. Lots of
games, utilities, floating point, graphics applications.
32-bit Forth for Windows 95 and Windows NT. Originally named Win32Forth.
Windows procedure calls and constants. OOP extensions. Aligned to ANS
Forth Standard. Complete source code. Suitable for very large projects.
Subtitle "Input Output Exercises". 6 easy lessons to teach Forth using input and
output problems as exercises. Include a floating point calculator, VGA graphics,
printer control, music on PC, stepper motor control, and a traffic controller.
Subtitle "Right to Assemble". 6 Easy lessons to teach people how to use Forth
to assemble machine instructions to optimize applications. Examples are
DTMF, data compression, power graphics, Mandelbrot plots, interrupts and
floating point coprocessor.
CT-100 is a 8051 based microcontroller training system, with integrated
peripherals like LED and LCD displays, keys and keyboard input, ADC. DAC,
stepper motor controller, relays, RS232, 8255, and 8279 peripherals. This
manual details experiments using 8051 Forth to controller these devices.
This is a 32 bit implementation of eForth for 80386 in the protected mode. It
enters into protected mode directly under DOS through an OK loader. Only
COM1 is active at 9600 baud. Keyboard, screen and disks are all silenced. You
need another PC to serve as a host through the serial port.
This is a 32 bit implementation of eForth for 80386 in the protected mode. It
replaces the Video BIOS at C0000H and is activated by system BIOS. It
converts a 386/486 motherboard to a diskless, embedded Forth processor,
communicating with a PC through the COM1 port.
First working version of eForth for Motorola 56002 DSP chip. Include Motorola
56000 Assembler and the assembler manual.
A direct threaded eForth assembled with Motorola ToolWare M68HC16
Assembler and used on M68HC16EVB board.
Forth from France! 32-bit protected mode Forth running in a DOS box under
Windows95. Fully optimized with building editor. On-line help, word browser,
complete library definitions. Multi-threads, protection against memory
exceptions. Public domain.
Java implementation of eForth for Java Virtual Machine. Token threaded, word
addressing, accessed through a console-style Java applet. Opened in a browser
like Netscape Navigator and Microsoft Internet Explorer.
A tool program running under MPW on PowerPC Macintosh. NEXT is a
branch-through-link-register machine instruction and the Forth virtual engine is
very fast.
Indirect Threaded eForth for Philips' 16-bit 8051 extended architecture clone.
Extended so that it forms a self-contained firmware development system using
the Shadow ROM model.
Subroutine threaded eForth is ported to 6805. Fully optimized so that the
interpreter and compiler run as fast as possible.
Enhanced eForth for 8086. Name and code dictionary unified. It can load
source code from DOS text files and dump EXE file image. It is useful to
develop substantial applications in the DOS environment.
Enhanced eForth for 8051. Optimized using subroutine threading. Name and
code dictionary unified. It can load source code and dump core image through
the serial port. It is useful to develop substantial applications.
3rd Edition, March 1988. Completely revised and expanded to 250 pages.
Detailed description of NC4000, architecture, instruction set, circuit of a
NC4000 computer, commentary of the latest cmForth (Dec. 1987 ,
programming tips, source code of cmForth, glossary, and index.
200 Screens of code implementing Modula-2 on NC4000. A substantial project
in NC4000. Source code on IBM-PC 5.25" disk with documentation.
A low cost kit similar to Chuck Moore's FORTHkit with cmForth to run with a
Harris RTX2000 chip. Consists of a 100 mm square PC board, 2 EPROM's
containing cmForth, and a PC-DOS diskette with cmForth source code and a
terminal/disk server. Ideal for experimenting and serious applications.
Revised RTX Forth Kit to run with a low cost Harris RTX2001AJC-8 Forth
chip. Consists of a 100 mm square PC board, 2 EPROM's containing cmForth
Version 3.0, and a MS-DOS diskette with updated cmForth source code and a
terminal/disk server. Ideal for experimenting and serious applications. Forth
Engine is now affordable!
Documentation on the 32 bit microprocessor designed by Chuck Moore.
Detailed discussions on the architecture, the instructions set, the DMA
coprocessor, and the DRAM interface of this powerful 50 MHz device.
A companion of the Indelko RTX Forth Kit. Features of RTX Forth engine and
revised source code of RTX cmForth, Version 3.0. Also include source code of
common utilities, double, quad and multiple precision math word sets.
Primary reference for MuP21 microprocessor. Architecture, instruction set,
video coprocessor programming, assembler, bootstrap code, Chuck Moores's
OK demonstration system, and his lectures on P21 and OK. With MuP21H
update.
; Vol. 18-24 20ドル.
Build an electronic organ with your IBM-PC. Instructions and source code to
build and play an organ with up to 12 voice channels. Great for Bach's
polyphonic organ music.
Four 8253's and four 8255's with 12 counter-timers and 96 digital I/O lines.
Ideal for above organ and robotic applications.
Complete source listing and system documentation for above Forth ROM Card.
Introduction to Forth. Specifically designed for the Forth ROM Card system for
Apple II above.
32 simulated neurons on a 7x12" pc board. The neurons are fully connected to
32 inputs. Socket holes are provided for 1056 resistors which define the
synaptic weights of the neural network. Examples of character recognition and
Walsh transform are provided. Many modules can be connected to expand the
neural network.
All the information you need to access the National Security Agency's CMOSN
Standard Cell Library. It includes the binary cell library, FPC source files to
extract cell information from the library, and a manual on how to use these files.
With these tools, designing a VLSI chip is similar to laying out a two layer PC
board.
This board is manufactured in Taiwan to train students in microcontroller
interfacing. It has 8051 as the CPU, surrounded by interesting devices like LED
and LCD displays, ADC, DAC, stepper motor controller, key array and
keyboard, buzzer, etc. Manual is available as Item #2132.
Dr. C. H. Ting Offete Enterprise
San Mateo, California 1306 South B Street
October, 1996 San Mateo, CA 94402
(650)574-8250, Fax (650)571-5004