Bill Dally

engineer university professor computer scientist

Previously he taught at Massachusetts Institute of Technology where he and his group built the J–Machine and the M–Machine, parallel machines emphasizing low overhead synchronization and communication. Prior to that, at Bell Telephone Laboratories he contributed to the design of the BELLMAC32, an early 32-bit microprocessor, and designed the MARS hardware accelerator. He has developed a number of techniques used in modern interconnection networks including routing-based deadlock avoidance, wormhole routing, link-level retry, virtual channels, global adaptive routing, and high-radix routers. He has developed efficient mechanisms for communication, synchronization, and naming in parallel computers including message-driven computing and fast capability-based addressing. He has developed a number of stream processors starting in 1995 including Imagine, for graphics, signal, and Image processing, and Merrimac, for scientific computing. Dally was elected a Fellow of the Association for Computing Machinery in 2002, and a Fellow of the Institute of Electrical and Electronics Engineers, also in 2002. In 2007 he was elected to the American Academy of Arts and Sciences, and in 2009 the National Academy of Engineering. He has published over 200 papers in these areas and is an author of the textbooks "Digital Systems Engineering" with John Poulton, and "Principles and Practices of Interconnection Networks" with Brian Towles. He has been inventor or coinventor on over 70 granted patents and has several more pending. He received the Bachelor of Surgery degree in Electrical Engineering from Virginia Polytechnic Institute, the Master of Surgery degree in Electrical Engineering from Stanford University, and the Doctor of Philosophy degree in Computer Science from Caltech. At Caltech he designed the MOSSIM Simulation Engine and the Torus Routing Chip.

Bill Dally

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engineer university professor computer scientist

Education

California Institute of Technology. Stanford University; Virginia Polytechnic Institute and State University.

Career

Previously he taught at Massachusetts Institute of Technology where he and his group built the J–Machine and the M–Machine, parallel machines emphasizing low overhead synchronization and communication. Prior to that, at Bell Telephone Laboratories he contributed to the design of the BELLMAC32, an early 32-bit microprocessor, and designed the MARS hardware accelerator. He has developed a number of techniques used in modern interconnection networks including routing-based deadlock avoidance, wormhole routing, link-level retry, virtual channels, global adaptive routing, and high-radix routers.

He has developed efficient mechanisms for communication, synchronization, and naming in parallel computers including message-driven computing and fast capability-based addressing.

He has developed a number of stream processors starting in 1995 including Imagine, for graphics, signal, and Image processing, and Merrimac, for scientific computing. Dally was elected a Fellow of the Association for Computing Machinery in 2002, and a Fellow of the Institute of Electrical and Electronics Engineers, also in 2002.

In 2007 he was elected to the American Academy of Arts and Sciences, and in 2009 the National Academy of Engineering. He has published over 200 papers in these areas and is an author of the textbooks "Digital Systems Engineering" with John Poulton, and "Principles and Practices of Interconnection Networks" with Brian Towles.

He has been inventor or coinventor on over 70 granted patents and has several more pending.

He received the Bachelor of Surgery degree in Electrical Engineering from Virginia Polytechnic Institute, the Master of Surgery degree in Electrical Engineering from Stanford University, and the Doctor of Philosophy degree in Computer Science from Caltech. At Caltech he designed the MOSSIM Simulation Engine and the Torus Routing Chip.

Achievements

He received the Association for Computing Machinery (ACM)/SIGARCH Maurice Wilkes Award in 2000 and the Seymour Cray Computer Science and Engineering Award in 2004. He received the 2010 Association for Computing Machinery (ACM)/Institute of Electrical and Electronics Engineers Eckert–Mauchly Award for "outstanding contributions to the architecture of interconnection networks and parallel computers." Bill"s corporate involvements include various collaborations at Cray Research since 1989, internet router work at Avici Systems starting in 1997, Chief Technology Officer at Velio Communications from 1999 until its 2003 acquisition by LSI Logic, founder and former chairman of Stream Processors, Incorporated., and most recently, chief scientist of NVIDIA.

Works

Other Work
- Dally and Poulton, Digital Systems Engineering, 1998, . Dally and Towles, Principles and Practices of Interconnection Networks, 2004, . Dally and Harting, Digital Design: A Systems Approach, 2012.

Membership

Institute of Electrical and Electronics Engineers.

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Bill Dally

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Awards

Engineering Award; Arts and Sciences; Mauchly Award; Maurice Wilkes Award