RE: Support for UT
- To: <MISC>
- Subject: RE: Support for UT
- From: "John Griessen" <john_g@xxxxxxxxxx>
- Date: Fri, 20 Mar 2099 16:48:02 -0600
- Importance: Normal
- In-Reply-To: <XgFIxOABxN82EwwO@wootten.demon.co.uk>
This is all good fun, but MISC may need to evolve
into a new name with the low fat computing idea
built in, since Minimal Instruction Set isn't 100%
of what UT's output is about.
John Griessen
Austin TX
> -----Original Message-----
> From: Keith Wootten [mailto:Keith@wootten.demon.co.uk]
> Sent: Thursday, March 18, 1999 4:58 AM
> To: MISC@pisa.rockefeller.edu
> Subject: Re: Support for UT
>
>
> From: Luis Commins
>
> [ a teeshirt ]
> (Maybe with the slogan: 'Don't RISC it, MISC it'?)
>
> Reply from: Keith Wootten
>
> I'll buy one, they sound too good to MISC.
>
>
>
> From: Luis Commins
>
> Looks like if we want some FORTH processors, DYOP is better,
> but then, it won't bring either performance or price.
>
> From: vic plichota
>
> I really *hate* to say this, but for a verrry long time, the only
> satisfactory effort that I've ever seen has been the Harris RTX,
> period.
>
>
> Reply from: Keith Wootten
>
> Are you unaware of the Patriot Scientific PSC1000 (ShBoom) processor?
> It's available, (I use it with a simple Forth cross-compiler built with
> Win32Forth) and has many MISC features. Its forerunner was designed by
> Chuck Moore and, while I don't know the full story, it looks as if
> someone took over the design and decided to make it work in a less
> quirky way. It's a 32bit twin-stack (on-chip) machine which currently
> runs at 100MHz loading four 8 bit instructions at a time. The 10ns
> instructions include *many* Forth primitives and it runs Forth very
> quickly. In addition there is a set of general purpose registers, and
> the return stack can also be accessed as registers if required. The
> memory interface is very flexible, and there is also a simple on-chip
> I/O processor with priority for time-critical tasks. The device can
> also run (more slowly) with 8 bit memory, and a minimum system comprises
> uP, ROM, DRAM and Oscillator - no glue required.
>
> While I agree that we should all support Jeff - and you can count me in
> for Teeshirts or Newsletters or whatever - it seems to me that, if the
> PSC1000 were more widely used, there would be a smaller mental leap for
> potential MISC investors. The FPGA approach is interesting, but a
> PSC1000 costs $10 in quantity - couple this with a small FPGA to handle
> the peripherals, and you have one hell of a system. It's certainly not
> as powerful as MISC will hopefully be, but it's real, working,
> documented Silicon which can be bought now. Use it or - maybe - lose
> it.
>
> While supporting the development of what we would all like to see, let's
> use what we already have in real products and projects. I don't have
> any connection with Patriot Scientific, but I've used the RTX2001
> extensively, and know a good Forth chip when I see one.
>
> See www.ptsc.com for details of ShBoom, Forth inc have a commercial
> compiler and show some very interesting benchmarks on their WebSite.
>
> Cheers
> --
> Keith Wootten
>