翻訳と辞書
Words near each other
・ Apollonian circles
・ Apollonian gasket
・ Apollonian network
・ Apollonian sphere packing
・ Apollonias
・ Apollonias barbujana
・ Apolloniatis
・ Apollo of Mantua
・ Apollo of Piombino
・ Apollo of Veii
・ Apollo Papathanasio
・ Apollo Pavilion
・ Apollo Peak
・ Apollo Perelini
・ Apollo PGNCS
Apollo PRISM
・ Apollo Priyadarshanam Institute of Technology
・ Apollo program
・ Apollo Quiboloy
・ Apollo Racer GT
・ Apollo Recordings
・ Apollo Records
・ Apollo Records (1928)
・ Apollo Records (1944)
・ Apollo Records (Belgium)
・ Apollo Records (Seattle)
・ Apollo Revisited
・ Apollo Road ferry wharf
・ Apollo Robbins
・ Apollo Room


Dictionary Lists
翻訳と辞書 辞書検索 [ 開発暫定版 ]
スポンサード リンク

Apollo PRISM : ウィキペディア英語版
Apollo PRISM

PRISM (Parallel Reduced Instruction Set Multiprocessor) was Apollo Computer's high-performance CPU used in their DN10000 series workstations. It was for some time the fastest microprocessor available, a high fraction of a Cray-1 in a workstation. Hewlett Packard purchased Apollo in 1989, ending development of PRISM, although some of PRISM's ideas were later used in HP's own HP-PA Reduced instruction set computer (RISC) and Itanium processors.
PRISM was based on what would be known today as a VLIW-design, while most efforts of the era, 1988, were based on a more "pure" RISC approach. In early RISC designs, the core processor was simplified as much as possible in order to allow more of the chip's real-estate to be used for registers and simplifying the addition of instruction pipelines for improved performance.
==Compilers==
The compilers used with the systems were expected to dedicate more time during compilation to making effective use of the registers and cleaning the instruction stream. By doing instruction scheduling in the compiler, this design avoided the problems and complexity of dynamic instruction scheduling (where instructions for multiple functional units must be selected carefully in order to avoid interdependencies between intermediate values) encountered in superscalar designs such as Digital Equipment Corporation's Alpha.
In some respects, the VLIW design can be thought of as "super-RISCy", as it offloads the instruction selection process to the compiler as well. In the VLIW design, the compiler examines the code and selects instructions that are known to be "safe", and then packages them into longer instruction words. For instance, for a CPU with two functional units, like the PRISM, the compiler would find pairs of safe instructions and stuff them into a single larger word. Inside the CPU, the instructions are simply split apart again, and fed into the selected units.
This design minimizes logical changes to the CPU as functional units are added, as the compiler is handling the instruction selection. However, this also ties the compiled code very tightly to the processor design; for instance, if a new generation of the CPU adds additional functional units, all programs running on it must be re-compiled so the compiler can re-arrange the instructions again, perhaps four-wide instead of two-wide. In comparison, a more traditional design like the PowerPC (PPC) has seen dramatic internal changes, yet code written for the first PPC's will still run without modification on the latest versions. The cost for this is an increasing amount of chip space that has to be dedicated to instruction scheduling.
The Apollo compilers were the first commercial compilers to use data-flow analysis and single static assignment techniques.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Apollo PRISM」の詳細全文を読む



スポンサード リンク
翻訳と辞書 : 翻訳のためのインターネットリソース

Copyright(C) kotoba.ne.jp 1997-2016. All Rights Reserved.