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Kyle C. Hale
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- affiliation: Illinois Institute of Technology, Chicago, IL, USA
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2020 – today
- 2024
- [c22]Brian R. Tauro
, Brian Suchy
TrackFM: Far-out Compiler Support for a Far Memory World. ASPLOS (1) 2024: 401-419 - 2022
- [j1]Brian R. Tauro
Modeling Speedup in Multi-OS Environments. IEEE Trans. Parallel Distributed Syst. 33(6): 1436-1450 (2022) - [c21]Nicholas C. Wanninger
Isolating functions at the hardware limit with virtines. EuroSys 2022: 644-662 - [c20]Eduardo Romero, Christopher Stewart
Bolt: Fast Inference for Random Forests. Middleware 2022: 94-106 - 2021
- [c19]Kyle C. Hale
Coalescent computing. APSys 2021: 79-88 - [c18]Qitian Zeng, Kyle C. Hale
Playing Fetch with CAT: Composing Cache Partitioning and Prefetching for Task-based Query Processing. DaMoN 2021: 15:1-15:5 - [c17]Eduardo Romero-Gainza, Christopher Stewart
Memory Mapping and Parallelizing Random Forests for Speed and Cache Efficiency. ICPP Workshops 2021: 29:1-29:5 - [c16]Poornima Nookala
Enabling Extremely Fine-grained Parallelism via Scalable Concurrent Queues on Modern Many-core Architectures. MASCOTS 2021: 1-8 - [c15]Mike Rainey, Ryan R. Newton, Kyle C. Hale
Task parallel assembly language for uncompromising parallelism. PLDI 2021: 1064-1079 - [c14]Kyle C. Hale
The Case for an Interwoven Parallel Hardware/Software Stack. SC (Workshops) 2021: 50-59 - [c13]Jiacheng Ma, Wenyi Wang
Paths to OpenMP in the kernel. SC 2021: 65 - [i4]Kyle C. Hale:
Coalescent Computing. CoRR abs/2104.07122 (2021) - [i3]Nicholas Wanninger, Joshua J. Bowden, Kyle C. Hale:
Virtines: Virtualization at Function Call Granularity. CoRR abs/2104.11324 (2021) - [i2]Amal Rizvi, Kyle C. Hale:
A Look at Communication-Intensive Performance in Julia. CoRR abs/2109.14072 (2021)
2010 – 2019
- 2019
- [c12]Brian R. Tauro
Modeling Speedup in Multi-OS Environments. MASCOTS 2019: 336-346 - [c11]Conor Hetland, Georgios Tziantzioulis, Brian Suchy, Kyle C. Hale
Prospects for Functional Address Translation. MASCOTS 2019: 370-383 - [i1]Kyle C. Hale, Conor Hetland, Peter A. Dinda:
Multiverse: Easy Conversion of Runtime Systems into OS Kernels via Automatic Hybridization. CoRR abs/1901.06360 (2019) - 2018
- [c10]Kyle C. Hale
An Evaluation of Asynchronous Software Events on Modern Hardware. MASCOTS 2018: 355-368 - 2017
- [c9]Kyle C. Hale
Multiverse: Easy Conversion of Runtime Systems into OS Kernels via Automatic Hybridization. ICAC 2017: 177-186 - 2016
- [c8]Kyle C. Hale
Automatic Hybridization of Runtime Systems. HPDC 2016: 137-140 - [c7]Kyle C. Hale
Enabling Hybrid Parallel Runtimes Through Kernel and Virtualization Support. VEE 2016: 161-175 - 2015
- [c6]Kyle C. Hale
A Case for Transforming Parallel Runtimes Into Operating System Kernels. HPDC 2015: 27-32 - 2014
- [c5]Lei Xia, Kyle C. Hale
ConCORD: easily exploiting memory content redundancy through the content-aware service command. HPDC 2014: 25-36 - [c4]Kyle C. Hale, Peter A. Dinda:
Guarded Modules: Adaptively Extending the VMM's Privilege Into the Guest. ICAC 2014: 85-96 - [c3]Maciej Swiech, Kyle C. Hale
VMM emulation of Intel hardware transactional memory. ROSS@ICS 2014: 4:1-4:8 - 2012
- [c2]Kyle C. Hale
Shifting GEARS to enable guest-context virtual services. ICAC 2012: 23-32
2000 – 2009
- 2009
- [c1]Kyle C. Hale
Segment gating for static energy reduction in Networks-on-Chip. NoCArc@MICRO 2009: 57-62
Coauthor Index
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