Cryogenic Computing Complexity Program: Phase 1 Introduction
Applied Superconductivity, IEEE Transactions (2015)
Abstract
The ultimate goal of the Intelligence Advanced Research Projects Activity (IARPA)'s Cryogenic Computing Complexity (C3) program is to demonstrate a complete superconducting computer including processing units and cryogenic memory. IARPA expects that the C3 program will be a five-year two-phase program. Phase one, which encompasses the first three years, primarily serves to develop the technologies that are required to separately demonstrate a small superconducting processor and memory units. Phase two, which is for the final two years, will integrate those new technologies into a small-scale working model of a superconducting computer. Program goals are presented, and the approaches of the phase-one teams are reviewed.
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Key words
computational complexity,computer architecture,cryogenics,iarpa,intelligence advanced research projects activity,cryogenic computing complexity program,cryogenic memory,memory units,processing units,superconducting computer,superconducting processor,complexity,superconducting digital logic,energy efficiency,memory management,josephson junctions
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