Affiliation:
1. University of Amsterdam
Abstract
Many-core processor architectures require scalable solutions that reflect the locality and power constraints of future generations of silicon technology. This paper presents a many-core processor that supports an abstract model of concurrency, based on a Self-adaptive Virtual Processor (SVP). This processor implements instructions, which automatically map and schedule threads providing a code devoid of any explicit communication. The thrust of this approach is to produce binary code that is divorced from implementation parameters, yet, which still gives good performance over future generations of CMPs. A key component of this processor architecture is the memory system. This paper briefly presents the model and evaluates its memory architecture.
Publisher
Association for Computing Machinery (ACM)
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