A large-scale reconfigurable data-path (LSRDP) processor based on single-flux quantum circuits has been proposed to overcome the barriers originating from the CMOS technology. LSRDP is integrated to a general purpose processor in a high-performance computing system to accelerate the execution of data flow graphs extracted from scientific applications. The LSRDP micro-architecture design procedure using a quantitative approach over benchmark data flow graphs and its specifications will be presented. A preliminary performance evaluation of the reconfigurable processor will be given in this paper as well. 1
A high-speed and large-scale processor dedicated to quantum computing is proposed, which has the min...
We propose a new design approach for high-throughput arithmetic circuits based on state transitions ...
Quantum computers realize parallel computing and solve NP problems efficiently since the possibiliti...
Workshop on Accelerators for High-Performance Architecture (WAHA) in Conjunction with 23rd Internati...
Abstract As a solution to gain high performance computation, a large-scale reconfigurable data-path ...
Abstract — To overcome issues originating from the CMOS technology, a large-scale reconfigurable dat...
Design, Automation & Test in Europe : 8-12 March, 2010 : Dresden, GermanyTo overcome issues originat...
As a solution to gain high performance computation, a large-scale reconfigurable data-path (LSRDP) p...
3rd Asia Symposium on Quality Electronic Design : July 19-20, 2011 : Kuala Lumpur, MalaysiaSingle-Fl...
Superconducting SFQ VLSI Workshop (SSV 2009) in Conjuction with International Superconductive Electr...
We propose a desk-side supercomputer with large-scale reconfigurable data-paths (LSRDPs) using super...
Abstract Large-Scale Reconfigurable Data-Path (LSRDP) processor has been proposed for the reduction ...
Summarization: This paper presents a new architecture to accelerate quantum computations, using reco...
Abstract — Hardware accelerators integrating to general pur-pose processors (GPPs) are increasingly ...
Hardware accelerators integrating to general purpose processors are increasingly employed to achieve...
A high-speed and large-scale processor dedicated to quantum computing is proposed, which has the min...
We propose a new design approach for high-throughput arithmetic circuits based on state transitions ...
Quantum computers realize parallel computing and solve NP problems efficiently since the possibiliti...
Workshop on Accelerators for High-Performance Architecture (WAHA) in Conjunction with 23rd Internati...
Abstract As a solution to gain high performance computation, a large-scale reconfigurable data-path ...
Abstract — To overcome issues originating from the CMOS technology, a large-scale reconfigurable dat...
Design, Automation & Test in Europe : 8-12 March, 2010 : Dresden, GermanyTo overcome issues originat...
As a solution to gain high performance computation, a large-scale reconfigurable data-path (LSRDP) p...
3rd Asia Symposium on Quality Electronic Design : July 19-20, 2011 : Kuala Lumpur, MalaysiaSingle-Fl...
Superconducting SFQ VLSI Workshop (SSV 2009) in Conjuction with International Superconductive Electr...
We propose a desk-side supercomputer with large-scale reconfigurable data-paths (LSRDPs) using super...
Abstract Large-Scale Reconfigurable Data-Path (LSRDP) processor has been proposed for the reduction ...
Summarization: This paper presents a new architecture to accelerate quantum computations, using reco...
Abstract — Hardware accelerators integrating to general pur-pose processors (GPPs) are increasingly ...
Hardware accelerators integrating to general purpose processors are increasingly employed to achieve...
A high-speed and large-scale processor dedicated to quantum computing is proposed, which has the min...
We propose a new design approach for high-throughput arithmetic circuits based on state transitions ...
Quantum computers realize parallel computing and solve NP problems efficiently since the possibiliti...