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ORCIDErik Brunvand
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2020 – today
- 2023
[e16]Erik Brunvand, Alla Sheffer, Michael Wimmer:
ACM SIGGRAPH 2023 Conference Proceedings, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents]- [e15]Erik Brunvand:
ACM SIGGRAPH 2023 Art Gallery, SIGGRAPH 2023, Los Angeles, California, August 6-10, 2023. ACM 2023 [contents] - [e14]Erik Brunvand:
ACM SIGGRAPH 2023 Courses, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e13]Erik Brunvand, Nick Jushchyshyn:
ACM SIGGRAPH 2023 Educator's Forum, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e12]Erik Brunvand, Mashhuda Glencross:
ACM SIGGRAPH 2023 Emerging Technologies, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e11]Erik Brunvand:
ACM SIGGRAPH 2023 Electronic Theater, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e10]Erik Brunvand:
ACM SIGGRAPH 2023 Appy Hour, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e9]Erik Brunvand, Anna Carolina Muller Queiroz:
ACM SIGGRAPH 2023 Immersive Pavilion, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e8]Erik Brunvand, Courtney Starrett:
ACM SIGGRAPH 2023 Labs, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e7]Erik Brunvand, Susan Reiser, Bonnie Mitchell:
ACM SIGGRAPH 2023 Panels, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e6]Erik Brunvand, James Tompkin:
ACM SIGGRAPH 2023 Posters, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e5]Erik Brunvand:
ACM SIGGRAPH 2023 Production Sessions, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e4]Erik Brunvand, Cem Yuksel:
ACM SIGGRAPH 2023 Real-Time Live!, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e3]Erik Brunvand, Susan Reiser:
ACM SIGGRAPH 2023 Talks, SIGGRAPH 2023, Los Angeles, CA, USA, August 6-10, 2023. ACM 2023 [contents] - [e2]Erik Brunvand:
ACM SIGGRAPH 2023 VR Theater, SIGGRAPH 2023, Los Angeles, California, August 6-10, 2023. ACM 2023 [contents] - [i1]Matthew Guthaus, Christopher Batten, Erik Brunvand, Pierre-Emmanuel Gaillardon, David M. Harris, Rajit Manohar, Pinaki Mazumder, Larry T. Pileggi, James E. Stine:
NSF Integrated Circuit Research, Education and Workforce Development Workshop Final Report. CoRR abs/2311.02055 (2023) - 2022
- [j17]Elena Vasiou
, Konstantin Shkurko, Erik Brunvand, Cem Yuksel:
Mach-RT: A Many Chip Architecture for High Performance Ray Tracing. IEEE Trans. Vis. Comput. Graph. 28(3): 1585-1596 (2022) - 2021
- [j16]Anindya Banerjee, Sankar Basu, Erik Brunvand, Pinaki Mazumder, Rance Cleaveland, Gurdip Singh, Margaret Martonosi, Fernanda Pembleton:
Navigating the Seismic Shift of Post-Moore Computer Systems Design. IEEE Micro 41(6): 162-167 (2021) - 2020
- [j15]Daqi Lin, Elena Vasiou, Cem Yuksel, Daniel M. Kopta, Erik Brunvand:
Hardware-Accelerated Dual-Split Trees. Proc. ACM Comput. Graph. Interact. Tech. 3(2): 20:1-20:21 (2020)
2010 – 2019
- 2019
- [j14]Donald Kline Jr., Nikolas Parshook, Xiaoyu Ge, Erik Brunvand, Rami G. Melhem, Panos K. Chrysanthis, Alex K. Jones:
GreenChip: A tool for evaluating holistic sustainability of modern computing systems. Sustain. Comput. Informatics Syst. 22: 322-332 (2019) - [c54]Elena Vasiou, Konstantin Shkurko, Erik Brunvand, Cem Yuksel:
Mach-RT: A Many Chip Architecture for Ray Tracing. High Performance Graphics (Short Papers) 2019: 1-6 - [c53]Erik Brunvand:
Extending Student Labs with SMT Circuit Implementation. ACM Great Lakes Symposium on VLSI 2019: 231-236 - 2018
- [j13]Konstantin Shkurko, Cem Yuksel, Daniel M. Kopta, Ian Mallett, Erik Brunvand:
Time Interval Ray Tracing for Motion Blur. IEEE Trans. Vis. Comput. Graph. 24(12): 3225-3238 (2018) - [j12]Elena Vasiou, Konstantin Shkurko, Ian Mallett, Erik Brunvand, Cem Yuksel:
A detailed study of ray tracing performance: render time and energy cost. Vis. Comput. 34(6-8): 875-885 (2018) - [c52]Konstantin Shkurko, Tim Grant, Erik Brunvand, Daniel M. Kopta, Josef B. Spjut, Elena Vasiou, Ian Mallett, Cem Yuksel:
SimTRaX: Simulation Infrastructure for Exploring Thousands of Cores. ACM Great Lakes Symposium on VLSI 2018: 503-506 - [c51]Erik Brunvand, Donald Kline Jr., Alex K. Jones:
Dark Silicon Considered Harmful: A Case for Truly Green Computing. IGSC 2018: 1-8 - 2017
- [j11]Erik Brunvand, Nina McCurdy:
Making Noise: Using Sound-Art to Explore Technological Fluency. Inroads 8(2): 60-65 (2017) - [c50]Konstantin Shkurko, Tim Grant, Daniel M. Kopta, Ian Mallett, Cem Yuksel, Erik Brunvand:
Dual streaming for hardware-accelerated ray tracing. High Performance Graphics 2017: 12:1-12:11 - [c49]Donald Kline Jr., Nikolas Parshook, Alex Johnson, James E. Stine, William E. Stanchina, Erik Brunvand, Alex K. Jones:
Sustainable IC design and fabrication. IGSC 2017: 1-8 - [c48]Daniel M. Kopta, Erik Brunvand:
Power and energy implications of misunderstanding DRAM. IGSC 2017: 1-6 - [c47]Erik Brunvand, Nina McCurdy:
Making Noise: Using Sound-Art to Explore Technological Fluency. SIGCSE 2017: 87-92 - 2016
- [c46]Donald Kline Jr., Nikolas Parshook, Xiaoyu Ge, Erik Brunvand, Rami G. Melhem, Panos K. Chrysanthis, Alex K. Jones:
Holistically evaluating the environmental impacts in modern computing systems. IGSC 2016: 1-8 - [c45]Jennifer (Ginger) Alford, Erik Brunvand:
Leveraging CS Teachable Moments in the Maker Movement (Abstract Only). SIGCSE 2016: 708 - 2015
- [j10]Daniel M. Kopta, Konstantin Shkurko, Josef B. Spjut, Erik Brunvand, Al Davis:
Memory Considerations for Low Energy Ray Tracing. Comput. Graph. Forum 34(1): 47-59 (2015) - [c44]Erik Brunvand:
Computational Thinking Meets Design Thinking: Technology and Arts Collaborations. ACM Great Lakes Symposium on VLSI 2015: 145 - [c43]Erik Brunvand:
Technological fluency through circuit bending. MSE 2015: 36-39 - [c42]Erik Brunvand:
A noise-based curriculum for technological fluency. SIGGRAPH Studio 2015: 25:1 - [c41]Erik Brunvand:
Using surface-mount components in an embedded systems lab. WCAE 2015: 7:1-7:7 - 2014
- [c40]Erik Brunvand, Niladrish Chatterjee, Daniel M. Kopta:
Why graphics programmers need to know about DRAM. SIGGRAPH Courses 2014: 21:1-21:75 - [c39]Erik Brunvand:
Speculatorum oculi. SIGGRAPH Art Gallery 2014: 416-417 - 2013
- [c38]Daniel M. Kopta, Konstantin Shkurko, Josef B. Spjut, Erik Brunvand, Al Davis:
An Energy and Bandwidth Efficient Ray Tracing Architecture. High Performance Graphics 2013: 121-128 - [c37]Erik Brunvand, Jennifer (Ginger) Reynolds Alford, Paul L. Stout:
Drawing machines: exploring embedded system programming and hardware with an artistic flair (abstract only). SIGCSE 2013: 766 - [c36]Erik Brunvand:
Lights! speed! action!: fundamentals of physical computing for programmers. SIGGRAPH Courses 2013: 13:1-13:108 - [c35]Erik Brunvand:
Arts/tech collaboration with embedded systems and kinetic art. SIGGRAPH Talks 2013: 23:1 - 2012
- [c34]Daniel M. Kopta, Thiago Ize, Josef B. Spjut, Erik Brunvand, Al Davis, Andrew Kensler:
Fast, effective BVH updates for animated scenes. I3D 2012: 197-204 - 2011
- [c33]Erik Brunvand:
Games as motivation in computer design courses: I/O is the key. SIGCSE 2011: 33-38 - [c32]Erik Brunvand, Paul L. Stout:
Kinetic art and embedded systems: a natural collaboration. SIGCSE 2011: 323-328 - 2010
- [c31]Daniel M. Kopta, Josef B. Spjut, Erik Brunvand, Al Davis:
Efficient MIMD architectures for high-performance ray tracing. ICCD 2010: 9-16 - [c30]David W. Nellans, Kshitij Sudan, Erik Brunvand, Rajeev Balasubramonian:
Improving Server Performance on Multi-cores via Selective Off-Loading of OS Functionality. ISCA Workshops 2010: 275-292 - [c29]David W. Nellans, Kshitij Sudan, Rajeev Balasubramonian, Erik Brunvand:
Hardware prediction of OS run-length for fine-grained resource customization. ISPASS 2010: 111-112 - [e1]R. Iris Bahar, Fabrizio Lombardi, David Atienza, Erik Brunvand:
Proceedings of the 20th ACM Great Lakes Symposium on VLSI 2009, Providence, Rhode Island, USA, May 16-18 2010. ACM 2010, ISBN 978-1-4503-0012-4 [contents]
2000 – 2009
- 2009
- [j9]David W. Nellans, Rajeev Balasubramonian, Erik Brunvand:
OS execution on multi-cores: is out-sourcing worthwhile? ACM SIGOPS Oper. Syst. Rev. 43(2): 104-105 (2009) - [j8]Josef B. Spjut, Andrew E. Kensler, Daniel M. Kopta, Erik Brunvand:
TRaX: A Multicore Hardware Architecture for Real-Time Ray Tracing. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 28(12): 1802-1815 (2009) - [c28]Josef B. Spjut, Andrew E. Kensler, Erik Brunvand:
Hardware-accelerated gradient noise for graphics. ACM Great Lakes Symposium on VLSI 2009: 457-462 - 2008
- [j7]Peter Shirley, Kelvin Sung, Erik Brunvand, Alan L. Davis, Steven G. Parker, Solomon Boulos:
Fast ray tracing and the potential effects on graphics and gaming courses. Comput. Graph. 32(2): 260-267 (2008) - [c27]Josef B. Spjut, Solomon Boulos, Daniel M. Kopta, Erik Brunvand, Spencer S. Kellis:
TRaX: A Multi-Threaded Architecture for Real-Time Ray Tracing. SASP 2008: 108-114 - 2007
- [c26]Peter Shirley, Kelvin Sung, Erik Brunvand, Alan L. Davis, Steven G. Parker, Solomon Boulos:
Rethinking graphics and gaming courses because of fast ray tracing. SIGGRAPH Educators Program 2007: 15 - 2005
- [c25]Gaurav Gulati, Erik Brunvand:
Design of a cell library for asynchronous microengines. ACM Great Lakes Symposium on VLSI 2005: 385-389 - 2004
- [c24]David W. Nellans, Vamshi Krishna Kadaru, Erik Brunvand:
ARCS: an architectural level communication driven simulator. ACM Great Lakes Symposium on VLSI 2004: 73-77 - 2003
- [c23]Jung-Lin Yang, Erik Brunvand:
Using dynamic domino circuits in self-timed systems. ACM Great Lakes Symposium on VLSI 2003: 253-256 - [c22]Jung-Lin Yang, Erik Brunvand:
Self-Timed Design with Dynamic Domino Circuits. ISVLSI 2003: 217-219 - 2000
- [c21]Hans M. Jacobson, Erik Brunvand, Ganesh Gopalakrishnan, Prabhakar Kudva:
High-Level Asynchronous System Design Using the ACK Framework. ASYNC 2000: 93-103
1990 – 1999
- 1999
- [j6]Ganesh Gopalakrishnan, Prabhakar Kudva, Erik Brunvand:
Peephole optimization of asynchronous macromodule networks. IEEE Trans. Very Large Scale Integr. Syst. 7(1): 30-37 (1999) - [c20]Erik Brunvand, Steven M. Nowick, Kenneth Y. Yun:
Practical Advances in Asynchronous Design and in Asynchronous/Synchronous Interfaces. DAC 1999: 104-109 - [c19]John B. Carter, Wilson C. Hsieh, Leigh Stoller, Mark R. Swanson, Lixin Zhang, Erik Brunvand, Al Davis, Chen-Chi Kuo, Ravindra Kuramkote, Michael A. Parker, Lambert Schaelicke, Terry Tateyama:
Impulse: Building a Smarter Memory Controller. HPCA 1999: 70-79 - 1998
- [c18]John B. Carter, Wilson C. Hsieh, Mark R. Swanson, Lixin Zhang, Erik Brunvand, Al Davis, Chen-Chi Kuo, Ravindra Kuramkote, Michael A. Parker, Lambert Schaelicke, Leigh Stoller, Terry Tateyama:
Memory System Support for Irregular Applications. LCR 1998: 17-26 - 1997
- [c17]Erik Brunvand, Steven M. Nowick, Kenneth Y. Yun:
Practical Advances in Asynchronous Design. ICCD 1997: 662-668 - [c16]Ajay Khoche, Erik Brunvand:
ACT: A DFT Tool for Self-Timed Circuits. ITC 1997: 829-837 - [c15]Ajay Khoche, Erik Brunvand:
Critical hazard free test generation for asynchronous circuits. VTS 1997: 203-209 - 1996
- [j5]V. Chandramouli, Erik Brunvand, Kent F. Smith:
Self-Timed Design in GaAs - Case Study of a High-Speed, Parallel Multiplier. IEEE Trans. Very Large Scale Integr. Syst. 4(1): 146 (1996) - [c14]William F. Richardson, Erik Brunvand:
Fred: an architecture for a self-timed decoupled computer. ASYNC 1996: 60-68 - 1995
- [c13]Erik Brunvand:
Low latency self-timed flow-through FIFOs. ARVLSI 1995: 76-90 - [c12]Ajay Khoche, Erik Brunvand:
Testing self-timed circuits using partial scan. ASYNC 1995: 160-169 - [c11]Sandeep Pagey, Ajay Khoche, Erik Brunvand:
DFT for fast testing of self-timed control circuits. Asian Test Symposium 1995: 382-386 - [c10]Jae-Tack Yoo, Erik Brunvand, Kent F. Smith:
Automatic rapid prototyping of semi-custom VLSI circuits using Actel FPGAs. Great Lakes Symposium on VLSI 1995: 148-151 - [c9]William F. Richardson, Erik Brunvand:
Precise exception handling for a self-timed processor. ICCD 1995: 32-37 - [c8]Ajay Khoche, Erik Brunvand:
A partial scan methodology for testing self-timed circuits. VTS 1995: 283-289 - 1994
- [j4]Ganesh Gopalakrishnan, Erik Brunvand, Nick Michell, Steven M. Nowick:
A correctness criterion for asynchronous circuit validation and optimization. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 13(11): 1309-1318 (1994) - [j3]Erik Brunvand:
Designing self-timed systems using concurrent programs. J. VLSI Signal Process. 7(1-2): 47-59 (1994) - [c7]Ajay Khoche, Erik Brunvand:
Testing micropipelines. ASYNC 1994: 239-246 - [c6]Prabhakar Kudva, Ganesh Gopalakrishnan, Erik Brunvand, Venkatesh Akella:
Performance Analysis and Optimization of Asynchronous Circuits. ICCD 1994: 221-224 - [c5]Ganesh Gopalakrishnan, Prabhakar Kudva, Erik Brunvand:
Peephole Optimization of Asynchronous Macromodule Networks. ICCD 1994: 442-446 - 1993
- [j2]Ganesh Gopalakrishnan, Erik Brunvand:
Guest editors' introduction to the special issue on asynchronous systems. Integr. 15(3): 233-239 (1993) - [j1]Erik Brunvand:
Using FPGAs to implement self-timed systems. J. VLSI Signal Process. 6(2): 173-190 (1993) - 1992
- [c4]Erik Brunvand:
Using FPLs to Prototoype a Self-Timed Computer. FPL 1992: 192-198 - [c3]Erik Brunvand, Nick Michell, Kent F. Smith:
A Comparison of Self-Timed Design Using FPGA, CMOS, and GaAs Technologies. ICCD 1992: 76-80 - 1991
- [c2]Erik Brunvand, M. Starkey:
An Integrated Environment for the Design and Simulation of Self-Timed Systems. VLSI 1991: 137-146
1980 – 1989
- 1989
- [c1]Erik Brunvand, Robert F. Sproull:
Translating concurrent programs into delay-insensitive circuits. ICCAD 1989: 262-265
Coauthor Index
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