Affiliation:
1. University of Rochester, Rochester, NY, USA
Abstract
As microprocessor chips integrate a growing number of cores, the issue of interconnection becomes more important for overall system performance and efficiency. Compared to traditional distributed shared-memory architecture, chip-multiprocessors offer a different set of design constraints and opportunities. As a result, a conventional packet-relay multiprocessor interconnect architecture is a valid, but not necessarily optimal, design point. For example, the advantage of off-the-shelf interconnect and the
in-field
scalability of the interconnect are less important in a chip-multiprocessor. On the other hand, even with worsening wire delays,packet switching represents a non-trivial component of overall latency.
In this paper, we show that with straight forward optimizations, the traffic between different cores can be kept relatively low. This in turn allows simple shared-medium interconnects to be built using communication circuits driving transmission lines. This architecture offers extremely low latencies and can support a large number of cores without the need for packet switching, eliminating costly routers.
Publisher
Association for Computing Machinery (ACM)
Reference53 articles.
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3. Predictive Technology Modeling. http://ptm.asu.edu/. Predictive Technology Modeling. http://ptm.asu.edu/.
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