Lakshminarayana, G., et al. Common-Case Computation: A High-Level Technique for Power and Performance Optimization. DAC, pp. 1-5, 1999.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....transparent to the user and does not modify the meaning of the application irrespective of whether there exists redundant computation due to parameter passing or not. Our work is complementary to the studies in [4, 5, 12] There is also work on hardwarebased common case exploitation (e.g. [8]) In contrast, our approach is software oriented and targets unused formal parameters rather than common case computations. 2. Review of Parameter Passing Mechanisms Subroutines are the major programming language structures for enabling control and data abstraction [9] The in terface of the ....

G. Lakshminarayana, A. Raghunathan, K. Khouri, K. Jha, and S. Dey. Common-case computation: a high-level technique for power and performance optimization. In Proc. the Design Automation Conference, pp. 56-61, 1999.

....executed code and data to non interfering cache regions [15] to improve performance. The approach in [8] proposes using profiling to generate alternate subroutine versions for common cases, with the program then using run time profiling to pick the best version. Likewise, the approach in [14] uses profiling Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. ....

Lakshminarayana, G., et al. Common-Case Computation: A High-Level Technique for Power and Performance Optimization. DAC, pp. 1-5, 1999.

....executed code and data to non interfering cache regions [14] to improve performance. The approach in [7] proposes using profiling to generate alternate subroutine versions for common cases, with the program then using run time profiling to pick the best version. Likewise, the approach in [13] uses profiling Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. ....

Lakshminarayana, G., et al. Common-Case Computation: A High-Level Technique for Power and Performance Optimization. DAC, pp. 1-5, 1999.

.... Transmission idle system Figure 1: Energy consumed by a secure wireless session during (a) session negotiation and (b) data transaction while transmitting 64 KB data There has been substantial research in the field of circuit, logic and architecture level design techniques for low power [4, 5], instruction level power models of processors [15] estimation and minimization of software energy [16] and energy efficient software compilation techniques [17] At the application level, adaptive applications have been developed to reduce energy [13,14] Techniques to minimize the energy ....

G. Lakshminarayana, A. Raghunathan, K. S. Khouri, N. K. Jha, S. Dey, Common case computation: A high level technique for power and performance optimization, Proceedings, ACM/IEEE DAC, June 1999.

....frequency N from the outputs of the gates, and this is made possible by shutting down unnecessary portions of the circuit. This is accomplished either by adding new control circuitry to the circuit or by partitioning the circuit. Shut down techniques that add new control circuitry include [3], 4] 5] 6] 7] 8] 9] 10] and [11] 3] isolates the portion of the circuit that is responsible for most of the computation complexity and tries to shut down the rest of the circuit as much as possible. 4] 5] and [6] reduces the switching activities in flip flops, registers, and ....

....and this is made possible by shutting down unnecessary portions of the circuit. This is accomplished either by adding new control circuitry to the circuit or by partitioning the circuit. Shut down techniques that add new control circuitry include [3] 4] 5] 6] 7] 8] 9] 10] and [11] [3] isolates the portion of the circuit that is responsible for most of the computation complexity and tries to shut down the rest of the circuit as much as possible. 4] 5] and [6] reduces the switching activities in flip flops, registers, and memories. 7] 8] 9] 10] and [11] modifies the ....

G. Lakshminarayana, A. Raghunathan, K. Khouri, N. Jha, and S. Dey, "Common-Case Computation: A High-Level Technique for Power and Performance Optimization," DAC, pp. 56-61, June 1999.

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Lakshminarayana, G., et al. Common-Case Computation: A High-Level Technique for Power and Performance Optimization. DAC, pp. 1-5, 1999.

No context found.

G. Lakshminarayana, A. Raghunathan, K. Khouri, K. Jha, and S. Dey, "Common-case computation: A high-level technique for power and performance optimization," in Proc. DAC---Design Automation Conf., 1999, pp. 56--61.

No context found.

G. Lakshminarayana, A. Raghunathan, K. Khouri, K. Jha, and S. Dey, "Common-Case Computation: A High-Level Technique for Power and Performance Optimization", Design Automation Conference , pp.56-61, 1999

No context found.

G. Lakshminarayana, A. Raghunathan, K. Khouri, K. Jha, and S. Dey, \Common-Case Computation: A High-Level Technique for Power and Performance Optimization", ###, pp.56-61, 1999

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