这样一来,研究人员在现场可编程门阵列芯片上创造出来1000个迷你电路,成功地将电脑芯片变成1000核处理器,每个核心在各自的指令下执行任务。
By creating more than 1,000 mini-circuits within the FPGA chip, the scientists effectively turned the chip into a 1,000-core processor - each core working on its own instructions.
新一代面向密集计算的高性能处理器普遍采用分布式寄存器文件来支撑ALU阵列,并通过VLIW开发指令级并行。
Newly-emerging high performance processors for intensive computing generally use distributed register files to support ALU array and to explore instruction level parallelism(ILP) by VLIW.
这一方法使得高速流水线的单指令流-单数据流计算机与阵列机、向量机的一些成果,通过“相似性”可以相互推广。
Because of this similarity, some methods from high-speed pipeline SISD computers can be extended to array processors or vector computers, and vice-versa.
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