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ASYNC
2000
IEEE
2000
IEEE
High-Throughput Asynchronous Pipelines for Fine-Grain Dynamic Datapaths
This paper introduces several new asynchronous pipeline designs which offer high throughput as well as low latency. The designs target dynamic datapaths, both dualrail as well as single-rail. The new pipelines are latchfree and therefore are particularly well-suited for fine-grain pipelining, i.e., where each pipeline stage is only a single gate deep. The pipelines employ new control structures and protocols aimed at reducing the handshaking delay, the principal impediment to achieving high throughput in asynchronous pipelines. As a test vehicle, a 4-bit FIFO was designed using 0.6 micron technology. The results of careful HSPICE simulations of the FIFO designs are very encouraging. The dualrail designs deliver a throughput of up to 860 million data items per second. This performance represents an improvement by a factor of 2 over a widely-used comparable approach by Williams [16]. The new single-rail designs deliver a throughput of up to 1208 million data items per second.
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| Added | 30 Jul 2010 |
| Updated | 30 Jul 2010 |
| Type | Conference |
| Year | 2000 |
| Where | ASYNC |
| Authors | Montek Singh, Steven M. Nowick |
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