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ASAP
2005
IEEE
2005
IEEE
On the Advantages of Serial Architectures for Low-Power Reliable Computations
This paper explores low-power reliable microarchitectures for addition. Power, speed, and reliability (both defect- and fault-tolerance) are important metrics of system design, spanning device, gate, block, and architectural levels. The analysis considers the low power needs of future systems at supply voltages comparable to threshold voltages (Vth). Theoretical analysis and simulations show a decline of the speed advantages of parallel adders when considering wire delays. These evaluations suggest that serial adders might do better for (ultra) low-power operation, with redundancy for enhancing reliability. We analyze 32-bit multiplexed serial adders. The robustness when using output-wired mirrored adder (majority) gates is shown under faulty conditions. Simulations (at 180 nm, 120 nm, and 70 nm) identify the supply voltages where the power-delay- and energy-delay-products are minimized. These show that redundant serial adders are not only low-power and reliable, but can trade speed f...
Real-time TrafficASAP 2005 | Distributed And Parallel Computing | Low-power Reliable Microarchitectures | Serial Adders | Supply Voltages |
| Added | 24 Jun 2010 |
| Updated | 24 Jun 2010 |
| Type | Conference |
| Year | 2005 |
| Where | ASAP |
| Authors | Valeriu Beiu, Snorre Aunet, Jabulani Nyathi, Ray Robert Rydberg III, Asbjørn Djupdal |
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