[net.micro.68k] AT&T's WE32100 Microprocessor

mlh@houxl.UUCP (M.HARRISON) (05/01/85)

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       By now some of you may have read that we (AT&T) are for the
       first time selling commercially our WE32100 32 bit
       microprocessor family (now aka "The UNIX Microsystem",
       thanks to someone in marketing).  I'm not going to comment
       on the performance of our chipset relative to the other 32
       bit vendors out there (Motorola and National), as I'm sure
       this information will be forthcoming from less biased
       sources.  Suffice to say that we think its pretty good.
       However, I'd like to give some details on the devices.

       All members of the chipset have full 32 bit address and data
       buses and are implemented in 1.5 micron CMOS.  The
       cornerstone chips are the WE32100 CPU and WE32101 MMU.  The
       devices were initially developed for in-house use over the
       last few years.  They've been through several iterations and
       are now mature and more importantly bug-free (as far as we
       know!) Also available is an 80 bit (double extended
       precision) IEEE standard floating-point Math Accelerator
       Unit.  Single-precision arithmetic is also supported.  This
       guy really flies, 80 bit register to register multiplies
       take 67 cycles and adds take 23.  It operates as a tightly-
       coupled co-processor with our CPU or as a peripheral to
       other 32 bit processors.  Also announced, but not available
       till third quarter this year are DRAM and DMA Controllers.
       All devices come in two speeds, 10 and 14 MHz.

       One neat feature is our packaging, they are rectangular
       ceramic pin grid arrays.  Pins are on 100 mil centers with
       every third row missing to allow for a routing channel on
       the PC board.  This will generally reduce the number of
       layers in the PC board and allow more effective power and
       ground routing, thereby enhancing low-noise operation.  On
       the top of each package is an array of small rectangular
       metal pads, each on corresponding to the pin below it.  We
       call them scratch pads, they're great for scope probing.
       ZIF and LIF sockets are available.

       As far as prototyping goes, there is an evaluation board
       that facilitates hardware and software experimentation
       (including varying wait-states!).  For development, we're
       offering a Hardware-Software Development System which
       provides in-circuit emulation, a high-level debugger which
       resides partly in firmware and partly on a UNIX host, and a
       plug-in interface to the HP 64000 Logic Development System.
       For software, there is a C compiler, an assembler, and many
       other packages available.  Basically, if it runs on a 3B-2,
       it can be made to work on the chipset.

       If there's interest, I'll be happy to either post or e-mail
       more info.  If you want data sheets feel free to call
       (800) 372-2447.


                               Marc Harrison
                               AT&T Bell Labs, Holmdel
                               (201) 949-1779