High-End Server Based on Complexity-Reduced Architecture for Superconductor Technology(<特集>Special Issue on Superconductive Electronics)

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概要

• 論文の詳細を見る

• We present a design framework of a high-end server based on Single-Flux-Quantum (SFQ) circuit technologies. The server proposed here has multiple microprocessors and memories, which are mounted on a single board or package and are connected each other by SFQ interconnection switches. The extremely large bandwidth up to 100 Gbps/channel in the interconnection will be realized because of high throughput nature of the SFQ circuits. SFQ memories or Josephson-CMOS hybrid memories are employed as the shared memory of the multiprocessor. The SFQ microprocessors are constructed based on the complexity-reduced (CORE) architecture, in which complexity of the system is eased in exchange for using a high clock rate of the SFQ circuits. The processor is so-called Java-processor that directly executes the Java Byte Codes. Assuming a proper advancement of the Nb/AlO_x/Nb integrated circuit process technology, we have estimated that the power consumption of the server system including a cryocooler is reduced by a factor of twenty as compared to the future CMOS system with the same processor performance, while the SFQ system has 100 times of magnitude larger memory-processor bandwidth.

• 社団法人電子情報通信学会の論文
• 2002-03-01

著者

• FUJIMAKI Akira

  Department of Quantum Engineering, Nagoya University

• Fujimaki Akira

  Department Of Quantum Engineering Nagoya University

• YOSHIKAWA Nobuyuki

  Department of Electrical and Computer Engineering, Yokohama National University

• Yoshikawa Nobuyuki

  Department Of Electrical And Computer Engineering Yokohama National University

• Takai Yoshiaki

  Computing Center Hokkaido University

関連論文

• A clock line for a large scale reconfigurable data paths processor (超伝導エレクトロニクス)
• Design and Implementation of RSFQ Microwave Choppers for the Superconducting Quantum-Computing System
• Mechanically Tunable High-Temperature Superconducting Microwave Filter With Large Shift of Resonant Frequency : Superconductors
• Preparation of Superconducting Magnetostatic Wave (MSW) Devices Consisting of High-T_c Superconductor (HTS)/Perovskite-Type Manganite Heterostructures: Application of Pr_Ca_MnO_3 as a MSW Waveguide : Superconductors
• Formation of c-Axis Oriented YBa_2Cu_3O_ Thin Film on Amorphous Substrates with Al(111) Buffer Layer
• Systematic Measurement of Critical Current Density for Narrow YBa_2Cu_3O_y Lines
• Numerical Analysis of Influence of Surface Barrier on Current-Voltage Characteristics for Narrow Superconducting Lines
• Submicron Patterning Technique for YBa_2Cu_3O_y Films Using Focused Ion Beam Lithography
• High-Quality Nb/AlO_x-Al/Nb Josephson Junctions with Gap Voltage of 2.95 mV
• Automated Passive-Transmission-Line Routing Tool for Single-Flux-Quantum Circuits Based on A* Algorithm
• Proposal of a Desk-Side Supercomputer with Reconfigurable Data-Paths Using Rapid Single-Flux-Quantum Circuits
• Bit-Serial Single Flux Quantum Microprocessor CORE
• Design and Implementation of RSFQ Microwave Choppers for the Superconducting Quantum-Computing System
• Statistical Evaluation of a Superconductive Physical Random Number Generator
• 100GHz Demonstrations Based on the Single-Flux-Quantum Cell Library for the 10kA/cm^2 Nb Multi-Layer Process
• Automated Passive-Transmission-Line Routing Tool for Single-Flux-Quantum Circuits Based on A^* Algorithm
• High-Speed Demonstration of SFQ Circuit Based on Cell-Based Design Method
• Design and Demonstration of Pipelined Circuits Using SFQ Logic(Special Issue on Superconductive Electronics)
• Direct measurements of propagation delay of single-flux-quantum circuits by time-to-digital converters
• Characteristics of Interface-Modified Josephson Junctions Fabricated under Various Etching Conditions
• Interface-Treated Josephson Junctions in Trilayer Structures
• Planarization of the Yba_2Cu_3O_ Base Electrodes in Trilayer Josephson Junctions : Superconductors
• High-End Server Based on Complexity-Reduced Architecture for Superconductor Technology(Special Issue on Superconductive Electronics)
• A Novel Splitter with Four Fan-Outs for Ballistic Signal Distribution in Single-Flux-Quantum Circuits up to 50Gb/s
• High-Speed Operation of a Single-Flux-Quantum (SFQ) Cross/Bar Switch up to 35GHz
• Overdamped NbN Josephson Junctions Based on Nb/AlO_x/Nb Trilayer Technology
• Anisotropic Etching Process for Submicron Patterning of Nb Using CF_4
• Simultaneous Switching on Vertically Stacked Josephson Junctions with Very Thin Intermediate Electrode
• Magnetic Field Dependence of High J_c YBa_2Cu_3O_/Au/Nb Junctions Using a-Axis-Oriented YBa_2Cu_3O_ Thin Films
• Characteristics of Nb/Al/AlO_x/Al/AlO_x/Nb Junctions Based on the Proximity Effect
• Submicrometer-Scale Patterning of Superconducting Nb Films Using Focused Ion Beam
• FOREWORD
• Experimental Analysis of YBa_2Cu_3O_x/Ag Proximity Interfaces
• Unique Method of Patterning Superconducting Thin Films by Selective Growth of Y-Ba-Cu-O
• Design of Small RSFQ Microprocessor Based on Cell-Based Top-Down Design Methodology(Special Issue on Superconductive Electronics)
• Proposal of a Compact Neutron Diffraction System with a Single-Flux-Quantum Signal Processor
• Suppression of Magnetic Flux Trapping by Moats formed in NbN Ground Planes
• Flexible Superconducting Passive Interconnects with 50-Gb/s Signal Transmissions in Single-Flux-Quantum Circuits
• Ratchet Effect of Single Vortex Motion in Superconducting Asymmetrical Nanobridges
• Advancement of superconductor digital electronics
• High-Speed Operation of a Single-Flux-Quantum (SFQ) Cross/Bar Switch up to 35 GHz
• Experimental Demonstration and Numerical Analysis of Microampere Gray Zone Width with Enhanced Operating Margin in Shunted Quasi-One Junction Superconducting Quantum Interference Device Comparators
• C-8-20 Analysis of Computational Energy Efficiency in Single-Flux-Quantum Electronics by Implementing Integer-Based Hardware-Algorithm

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