Scholar
Mark Heinrich
Google Scholar ID: ENsrFlsAAAAJ
Associate Professor of Computer Science, UCF
Citations & Impact
Citations
136
H-index
6
i10-index
3
Publications
20
Co-authors
17
list available
Contact
No contact links provided.
Publications
Resume (English only)
Academic Achievements
- Published multiple peer-reviewed papers, including:
- C. E. Giles et al., 'A Fast Discrete Event Driven Simulation Methodology for Computer Architectural Simulation', IEEE HPCC 2018
- G. Mackey et al., 'Igloos Make the Cold Bearable: A Novel HDD Technology for Cold Storage', IEEE HPCC 2018
- C. E. Giles and M. Heinrich, 'M2S-CGM: A Detailed Architectural Simulator for Coherent CPU-GPU Systems', IEEE ICCD 2017
- Loundy et al., 'A Distributed Simulation of a Martian Fuel Production Facility', SAE Technical Paper 2017
- D. D. Kalamkar et al., 'Simplifying Active Memory Clusters by Leveraging Directory Protocol Threads', IEEE ISPASS 2007
- M. Chaudhuri and M. Heinrich, 'Integrated Memory Controllers with Parallel Coherence Streams', IEEE TPDS 2007
Research Experience
- Former Assistant Professor in the School of Electrical and Computer Engineering at Cornell University
- Co-founder of Cornell's Computer Systems Laboratory
- Member of the Intelligent Information Systems Institute at Cornell
- Co-founder and CTO of Phanfare, Inc., an archival photo and video hosting service later acquired by Carbonite
- Co-founder and Chief Architect of Flashbase, Inc., an Internet company specializing in automated sweepstakes and database-backed customer acquisition tools, acquired by DoubleClick in 2000
Background
- Currently an Associate Professor in Computer Science at the University of Central Florida (UCF)
- Served as Associate Director of the School of EECS from 2005 to 2007 after its formation in 2005
- Was Director of the School of Computer Science from April to September 2005
- Joined UCF as an Associate Professor in January 2003
- Research interests include: parallel computer architecture, heterogeneous architectures, active memory and I/O systems, scalable cache coherence protocols, multiprocessor simulation methodology, hardware/software co-design, and scalable web services
