The following publications are possibly variants of this publication:
- XXI Century Gigascale Integration (GSI) : The Interconnect ProblemJames D. Meindl. arvlsi 1999: 88 [doi]
- Design and Test Automation-Gigascale Integration (GSI) in the 21st CenturyJames D. Meindl. iccd 1991: 438
- Gigascale integration (GSI) interconnect limits and n-tier multilevel interconnect architectural solutions (discussion session)Jeffrey A. Davis, Raguraman Venkatesan, Keith A. Bowman, James D. Meindl. slip 2000: 147-148 [doi]
- Gigascale integration (GSI) technologyJames D. Meindl. sc 1991: 534-538 [doi]
- A 2-slot time-division multiplexing (TDM) interconnect network for gigascale integration (GSI)Ajay Joshi, Jeffrey A. Davis. slip 2004: 64-68 [doi]
- Optimal n-tier multilevel interconnect architectures for gigascale integration (GSI)Raguraman Venkatesan, Jeffrey A. Davis, Keith A. Bowman, James D. Meindl. tvlsi, 9(6):899-912, 2001. [doi]
- Interconnect Opportunities for Gigascale IntegrationJames D. Meindl. micro, 23(3):28-35, 2003. [doi]
- Interconnect opportunities for gigascale integrationJames D. Meindl, Jeffrey A. Davis, Payman Zarkesh-Ha, Chirag S. Patel, Kevin P. Martin, Paul A. Kohl. ibmrd, 46(2-3):245-264, 2002. [doi]
- Wave-pipelined multiplexed (WPM) routing for gigascale integration (GSI)Ajay Joshi, Jeffrey A. Davis. tvlsi, 13(8):899-910, 2005. [doi]
- Impact of three-dimensional architectures on interconnects in gigascale integrationJames W. Joyner, Raguraman Venkatesan, Payman Zarkesh-Ha, Jeffrey A. Davis, James D. Meindl. tvlsi, 9(6):922-928, 2001. [doi]
- A dynamic energy recycling logic family for ultra-low-power gigascale integration (GSI)Vivek De, James D. Meindl. islped 1996: 371-375 [doi]