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Global interconnects in VLSI complexity single flux quantum systems

Tahereh Jabbari, Eby G. Friedman

202037 citationsDOI

Abstract

On-chip signal routing has become an issue of growing importance in modern VLSI complexity single flux quantum (SFQ) systems. In this paper, different routing methods for these systems are described. The routing methods include either passive transmission lines (PTLs) or Josephson transmission lines (JTLs) as interconnects. Driving multiple SFQ gates is also a challenging issue in automated layout and clock tree synthesis (CTS) due to the limited fanout of SFQ gates. To support multiple fanout, splitters are used to distribute multiple SFQ pulses. These splitters require significant area, delay, and power. In this paper, several area and power efficient splitters are proposed for large scale SFQ integrated circuits. A primary issue within a long SFQ interconnect is resonance effects due to the imperfect match between the PTLs and Josephson junctions. A repeater insertion methodology for long interconnect to reduce and manage these resonance effects is also described. Summarizing, guidelines and tradeoffs appropriate for automated layout and synthesis are described for driving long and short interconnect in VLSI complexity SFQ systems.

Topics & Concepts

Repeater (horology)Very-large-scale integrationComputer scienceRouting (electronic design automation)InterconnectionElectric power transmissionJosephson effectElectronic engineeringElectrical engineeringTelecommunicationsEmbedded systemEngineeringEncoding (memory)PhysicsSuperconductivityArtificial intelligenceQuantum mechanicsPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaMagnetic properties of thin films
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