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Magnus Själander
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2020 – today
- 2024
- [j19]Sangeet Saha, Shounak Chakraborty, Sukarn Agarwal, Magnus Själander, Klaus D. McDonald-Maier:
ARCTIC: Approximate Real-Time Computing in a Cache-Conscious Multicore Environment. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 43(10): 2944-2957 (2024) - [c49]Shounak Chakraborty, Sangeet Saha, Magnus Själander, Klaus D. McDonald-Maier:
MAFin: Maximizing Accuracy in FinFET based Approximated Real-Time Computing. DAC 2024: 92:1-92:6 - [c48]Sukarn Agarwal, Shounak Chakraborty, Magnus Själander:
TEEMO: Temperature Aware Energy Efficient Multi-Retention STT-RAM Cache Architecture. IPDPS 2024: 852-864 - [i9]Jacob O. Tørring, Carl Hvarfner, Luigi Nardi, Magnus Själander:
CATBench: A Compiler Autotuning Benchmarking Suite for Black-box Optimization. CoRR abs/2406.17811 (2024) - [i8]David Metz, Nico Reissmann, Magnus Själander:
R-HLS: An IR for Dynamic High-Level Synthesis and Memory Disambiguation based on Regions and State Edges. CoRR abs/2408.08712 (2024) - 2023
- [j18]Christos Sakalis, Stefanos Kaxiras, Magnus Själander:
Delay-on-Squash: Stopping Microarchitectural Replay Attacks in Their Tracks. ACM Trans. Archit. Code Optim. 20(1): 9:1-9:24 (2023) - [j17]David Metz, Vineet Kumar, Magnus Själander:
BISDU: A Bit-Serial Dot-Product Unit for Microcontrollers. ACM Trans. Embed. Comput. Syst. 22(5): 79:1-79:22 (2023) - [j16]Sangeet Saha, Shounak Chakraborty, Sukarn Agarwal, Rahul Gangopadhyay, Magnus Själander, Klaus D. McDonald-Maier:
DELICIOUS: Deadline-Aware Approximate Computing in Cache-Conscious Multicore. IEEE Trans. Parallel Distributed Syst. 34(2): 718-733 (2023) - [c47]Sukarn Agarwal, Shounak Chakraborty, Magnus Själander:
Architecting Selective Refresh based Multi-Retention Cache for Heterogeneous System (ARMOUR). DAC 2023: 1-6 - [c46]Amund Bergland Kvalsvik, Pavlos Aimoniotis, Stefanos Kaxiras, Magnus Själander:
Doppelganger Loads: A Safe, Complexity-Effective Optimization for Secure Speculation Schemes. ISCA 2023: 53:1-53:13 - [c45]Pavlos Aimoniotis, Amund Bergland Kvalsvik, Xiaoyue Chen, Magnus Själander, Stefanos Kaxiras:
ReCon: Efficient Detection, Management, and Use of Non-Speculative Information Leakage. MICRO 2023: 828-842 - 2022
- [c44]Shounak Chakraborty, Vassos Soteriou, Magnus Själander:
STIFF: thermally safe temperature effect inversion aware FinFET based multi-core. CF 2022: 21-29 - [c43]Pavlos Aimoniotis, Amund Bergland Kvalsvik, Magnus Själander, Stefanos Kaxiras:
Data-Out Instruction-In (DOIN!): Leveraging Inclusive Caches to Attack Speculative Delay Schemes. SEED 2022: 49-60 - 2021
- [j15]Pavlos Aimoniotis, Christos Sakalis, Magnus Själander, Stefanos Kaxiras:
Reorder Buffer Contention: A Forward Speculative Interference Attack for Speculation Invariant Instructions. IEEE Comput. Archit. Lett. 20(2): 162-165 (2021) - [j14]Shounak Chakraborty, Magnus Själander:
WaFFLe: Gated Cache-Ways with Per-Core Fine-Grained DVFS for Reduced On-Chip Temperature and Leakage Consumption. ACM Trans. Archit. Code Optim. 18(4): 55:1-55:25 (2021) - [j13]Shounak Chakraborty, Sangeet Saha, Magnus Själander, Klaus D. McDonald-Maier:
Prepare: Power-Aware Approximate Real-time Task Scheduling for Energy-Adaptive QoS Maximization. ACM Trans. Embed. Comput. Syst. 20(5s): 62:1-61:25 (2021) - [c42]Christos Sakalis, Zamshed I. Chowdhury, Shayne Wadle, Ismail Akturk, Alberto Ros, Magnus Själander, Stefanos Kaxiras, Ulya R. Karpuzcu:
Do Not Predict - Recompute! How Value Recomputation Can Truly Boost the Performance of Invisible Speculation. SEED 2021: 89-100 - [c41]Christos Sakalis, Magnus Själander, Stefanos Kaxiras:
Seeds of SEED: Preventing Priority Inversion in Instruction Scheduling to Disrupt Speculative Interference. SEED 2021: 101-107 - [i7]Christos Sakalis, Zamshed I. Chowdhury, Shayne Wadle, Ismail Akturk, Alberto Ros, Magnus Själander, Stefanos Kaxiras, Ulya R. Karpuzcu:
On Value Recomputation to Accelerate Invisible Speculation. CoRR abs/2102.10932 (2021) - [i6]Christos Sakalis, Stefanos Kaxiras, Magnus Själander:
Selectively Delaying Instructions to Prevent Microarchitectural Replay Attacks. CoRR abs/2103.10692 (2021) - [i5]Pavlos Aimoniotis, Christos Sakalis, Magnus Själander, Stefanos Kaxiras:
"It's a Trap!"-How Speculation Invariance Can Be Abused with Forward Speculative Interference. CoRR abs/2109.10774 (2021) - 2020
- [j12]Christos Sakalis, Alexandra Jimborean, Stefanos Kaxiras, Magnus Själander:
Evaluating the Potential Applications of Quaternary Logic for Approximate Computing. ACM J. Emerg. Technol. Comput. Syst. 16(1): 5:1-5:25 (2020) - [j11]Christos Sakalis, Stefanos Kaxiras, Alberto Ros, Alexandra Jimborean, Magnus Själander:
Understanding Selective Delay as a Method for Efficient Secure Speculative Execution. IEEE Trans. Computers 69(11): 1584-1595 (2020) - [c40]Kim-Anh Tran, Christos Sakalis, Magnus Själander, Alberto Ros, Stefanos Kaxiras, Alexandra Jimborean:
Clearing the Shadows: Recovering Lost Performance for Invisible Speculative Execution through HW/SW Co-Design. PACT 2020: 241-254 - [c39]Shounak Chakraborty, Sangeet Saha, Magnus Själander, Klaus D. McDonald-Maier:
RePAiR: A Strategy for Reducing Peak Temperature while Maximising Accuracy of Approximate Real-Time Computing: Work-in-Progress. CODES+ISSS 2020: 8-10 - [c38]Rajiv Nishtala, Vinicius Petrucci, Paul M. Carpenter, Magnus Själander:
Twig: Multi-Agent Task Management for Colocated Latency-Critical Cloud Services. HPCA 2020: 167-179
2010 – 2019
- 2019
- [j10]Yaman Umuroglu, Davide Conficconi, Lahiru Rasnayake, Thomas B. Preußer, Magnus Själander:
Optimizing Bit-Serial Matrix Multiplication for Reconfigurable Computing. ACM Trans. Reconfigurable Technol. Syst. 12(3): 15:1-15:24 (2019) - [c37]Christos Sakalis, Mehdi Alipour, Alberto Ros, Alexandra Jimborean, Stefanos Kaxiras, Magnus Själander:
Ghost loads: what is the cost of invisible speculation? CF 2019: 153-163 - [c36]Lahiru Rasnayake, Magnus Själander:
Improving Memory Access Locality for Vectorized Bit-Serial Matrix Multiplication in Reconfigurable Computing. FPT 2019: 415-418 - [c35]Christos Sakalis, Stefanos Kaxiras, Alberto Ros, Alexandra Jimborean, Magnus Själander:
Efficient invisible speculative execution through selective delay and value prediction. ISCA 2019: 723-735 - [i4]Yaman Umuroglu, Davide Conficconi, Lahiru Rasnayake, Thomas B. Preußer, Magnus Själander:
Optimizing Bit-Serial Matrix Multiplication for Reconfigurable Computing. CoRR abs/1901.00370 (2019) - [i3]Nico Reissmann, Jan Christian Meyer, Helge Bahmann, Magnus Själander:
RVSDG: An Intermediate Representation for Optimizing Compilers. CoRR abs/1912.05036 (2019) - [i2]Magnus Själander, Magnus Jahre, Gunnar Tufte, Nico Reissmann:
EPIC: An Energy-Efficient, High-Performance GPGPU Computing Research Infrastructure. CoRR abs/1912.05848 (2019) - 2018
- [j9]Kim-Anh Tran, Trevor E. Carlson, Konstantinos Koukos, Magnus Själander, Vasileios Spiliopoulos, Stefanos Kaxiras, Alexandra Jimborean:
Static Instruction Scheduling for High Performance on Limited Hardware. IEEE Trans. Computers 67(4): 513-527 (2018) - [c34]Yaman Umuroglu, Lahiru Rasnayake, Magnus Själander:
BISMO: A Scalable Bit-Serial Matrix Multiplication Overlay for Reconfigurable Computing. FPL 2018: 307-314 - [c33]Kim-Anh Tran, Alexandra Jimborean, Trevor E. Carlson, Konstantinos Koukos, Magnus Själander, Stefanos Kaxiras:
SWOOP: software-hardware co-design for non-speculative, execute-ahead, in-order cores. PLDI 2018: 328-343 - [i1]Yaman Umuroglu, Lahiru Rasnayake, Magnus Själander:
BISMO: A Scalable Bit-Serial Matrix Multiplication Overlay for Reconfigurable Computing. CoRR abs/1806.08862 (2018) - 2017
- [j8]Trevor E. Carlson, Kim-Anh Tran, Alexandra Jimborean, Konstantinos Koukos, Magnus Själander, Stefanos Kaxiras:
Transcending Hardware Limits with Software Out-of-Order Processing. IEEE Comput. Archit. Lett. 16(2): 162-165 (2017) - [c32]Kim-Anh Tran, Trevor E. Carlson, Konstantinos Koukos, Magnus Själander, Vasileios Spiliopoulos, Stefanos Kaxiras, Alexandra Jimborean:
Clairvoyance: look-ahead compile-time scheduling. CGO 2017: 171-184 - 2016
- [c31]Carlos Sanchez, Peter Gavin, Daniel Moreau, Magnus Själander, David B. Whalley, Per Larsson-Edefors, Sally A. McKee:
Redesigning a tagless access buffer to require minimal ISA changes. CASES 2016: 19:1-19:10 - [c30]Magnus Själander, Gustaf Borgström, Mykhailo V. Klymenko, Françoise Remacle, Stefanos Kaxiras:
Techniques for modulating error resilience in emerging multi-value technologies. Conf. Computing Frontiers 2016: 55-63 - [c29]Daniel Moreau, Alen Bardizbanyan, Magnus Själander, David B. Whalley, Per Larsson-Edefors:
Practical way halting by speculatively accessing halt tags. DATE 2016: 1375-1380 - [c28]Thiemo Voigt, Magnus Själander, Frederik Hermans:
Poster: Approximation: A New Paradigm also for Wireless Sensing. EWSN 2016: 221-222 - 2015
- [c27]B. Davis, Ryan Baird, Peter Gavin, Magnus Själander, Ian Finlayson, F. Rasapour, G. Cook, Gang-Ryung Uh, David B. Whalley, Gary S. Tyson:
Scheduling instruction effects for a statically pipelined processor. CASES 2015: 167-176 - [c26]Ryan Baird, Peter Gavin, Magnus Själander, David B. Whalley, Gang-Ryung Uh:
Optimizing Transfers of Control in the Static Pipeline Architecture. LCTES 2015: 1:1-1:10 - [c25]Alen Bardizbanyan, Magnus Själander, David B. Whalley, Per Larsson-Edefors:
Improving Data Access Efficiency by Using Context-Aware Loads and Stores. LCTES 2015: 3:1-3:10 - 2014
- [b1]Magnus Själander, Margaret Martonosi, Stefanos Kaxiras:
Power-Efficient Computer Architectures: Recent Advances. Synthesis Lectures on Computer Architecture, Morgan & Claypool Publishers 2014, ISBN 978-3-031-00617-3 - [c24]Alen Bardizbanyan, Magnus Själander, David B. Whalley, Per Larsson-Edefors:
Reducing set-associative L1 data cache energy by early load data dependence detection (ELD3). DATE 2014: 1-4 - [c23]Magnus Själander, Nina Shariati Nilsson, Stefanos Kaxiras:
A tunable cache for approximate computing. NANOARCH 2014: 88-89 - 2013
- [j7]Alen Bardizbanyan, Magnus Själander, David B. Whalley, Per Larsson-Edefors:
Designing a practical data filter cache to improve both energy efficiency and performance. ACM Trans. Archit. Code Optim. 10(4): 54:1-54:25 (2013) - [j6]Peter Gavin, David B. Whalley, Magnus Själander:
Reducing instruction fetch energy in multi-issue processors. ACM Trans. Archit. Code Optim. 10(4): 64:1-64:24 (2013) - [c22]Alen Bardizbanyan, Peter Gavin, David B. Whalley, Magnus Själander, Per Larsson-Edefors, Sally A. McKee, Per Stenström:
Improving data access efficiency by using a tagless access buffer (TAB). CGO 2013: 28:1-28:11 - [c21]Alen Bardizbanyan, Magnus Själander, David B. Whalley, Per Larsson-Edefors:
Speculative tag access for reduced energy dissipation in set-associative L1 data caches. ICCD 2013: 302-308 - [c20]Ian Finlayson, Brandon Davis, Peter Gavin, Gang-Ryung Uh, David B. Whalley, Magnus Själander, Gary S. Tyson:
Improving processor efficiency by statically pipelining instructions. LCTES 2013: 33-44 - [c19]Magnus Själander, Per Larsson-Edefors:
FlexCore: Implementing an exposed datapath processor. ICSAMOS 2013: 306-313 - 2012
- [j5]Bhavishya Goel, Sally A. McKee, Magnus Själander:
Techniques to Measure, Model, and Manage Power. Adv. Comput. 87: 7-54 (2012) - [c18]Muhammad Waqar Azhar, Magnus Själander, Hasan Ali, Akshay Vijayashekar, Tung Thanh Hoang, Kashan Khurshid Ansari, Per Larsson-Edefors:
Viterbi Accelerator for Embedded Processor Datapaths. ASAP 2012: 133-140 - [c17]Magnus Själander, Sally A. McKee, Peter Brauer, David Engdal, András Vajda:
An LTE Uplink Receiver PHY benchmark and subframe-based power management. ISPASS 2012: 25-34 - [c16]Vahid Saljooghi, Alen Bardizbanyan, Magnus Själander, Per Larsson-Edefors:
Configurable RTL model for level-1 caches. NORCHIP 2012: 1-4 - 2011
- [c15]Alen Bardizbanyan, Magnus Själander, Per Larsson-Edefors:
Reconfigurable Instruction Decoding for a Wide-Control-Word Processor. IPDPS Workshops 2011: 322-325 - [c14]Magnus Själander, Sally A. McKee, Bhavishya Goel, Peter Brauer, David Engdal, András Vajda:
Power-Aware Resource Scheduling in Base Stations. MASCOTS 2011: 462-465 - 2010
- [j4]Tung Thanh Hoang, Magnus Själander, Per Larsson-Edefors:
A High-Speed, Energy-Efficient Two-Cycle Multiply-Accumulate (MAC) Architecture and Its Application to a Double-Throughput MAC Unit. IEEE Trans. Circuits Syst. I Regul. Pap. 57-I(12): 3073-3081 (2010) - [c13]Tung Thanh Hoang, Ulf Jalmbrant, Erik der Hagopian, Kasyab P. Subramaniyan, Magnus Själander, Per Larsson-Edefors:
Design space exploration for an embedded processor with flexible datapath interconnect. ASAP 2010: 55-62
2000 – 2009
- 2009
- [j3]Magnus Själander, Per Larsson-Edefors:
Multiplication Acceleration Through Twin Precision. IEEE Trans. Very Large Scale Integr. Syst. 17(9): 1233-1246 (2009) - [j2]Martin Thuresson, Magnus Själander, Magnus Björk, Lars J. Svensson, Per Larsson-Edefors, Per Stenström:
FlexCore: Utilizing Exposed Datapath Control for Efficient Computing. J. Signal Process. Syst. 57(1): 5-19 (2009) - [c12]Martin Thuresson, Magnus Själander, Per Stenström:
A Flexible Code Compression Scheme Using Partitioned Look-Up Tables. HiPEAC 2009: 95-109 - [c11]Patrik Kimfors, Niklas Broman, Andreas Haraldsson, Kasyab P. Subramaniyan, Magnus Själander, Henrik Eriksson, Per Larsson-Edefors:
Custom layout strategy for rectangle-shaped log-depth multiplier reduction tree. ICECS 2009: 77-80 - [c10]Tung Thanh Hoang, Magnus Själander, Per Larsson-Edefors:
Double Throughput Multiply-Accumulate unit for FlexCore processor enhancements. IPDPS 2009: 1-7 - [c9]Thomas Schilling, Magnus Själander, Per Larsson-Edefors:
Scheduling for an Embedded Architecture with a Flexible Datapath. ISVLSI 2009: 151-156 - [c8]Tung Thanh Hoang, Magnus Själander, Per Larsson-Edefors:
High-speed, energy-efficient 2-cycle Multiply-Accumulate architecture. SoCC 2009: 119-122 - 2008
- [j1]Md. Mafijul Islam, Magnus Själander, Per Stenström:
Early detection and bypassing of trivial operations to improve energy efficiency of processors. Microprocess. Microsystems 32(4): 183-196 (2008) - [c7]Magnus Själander, Andrei Sergeevich Terechko, Marc Duranton:
A Look-Ahead Task Management Unit for Embedded Multi-Core Architectures. DSD 2008: 149-157 - [c6]Magnus Själander, Per Larsson-Edefors:
High-speed and low-power multipliers using the Baugh-Wooley algorithm and HPM reduction tree. ICECS 2008: 33-36 - 2007
- [c5]Magnus Själander, Per Larsson-Edefors, Magnus Björk:
A Flexible Datapath Interconnect for Embedded Applications. ISVLSI 2007: 15-20 - [c4]Martin Thuresson, Magnus Själander, Magnus Björk, Lars J. Svensson, Per Larsson-Edefors, Per Stenström:
FlexCore: Utilizing Exposed Datapath Control for Efficient Computing. ICSAMOS 2007: 18-25 - 2006
- [c3]Henrik Eriksson, Per Larsson-Edefors, Mary Sheeran, Magnus Själander, Daniel Johansson, Martin Scholin:
Multiplier reduction tree with logarithmic logic depth and regular connectivity. ISCAS 2006 - 2005
- [c2]Magnus Själander, Mindaugas Drazdziulis, Per Larsson-Edefors, Henrik Eriksson:
A low-leakage twin-precision multiplier using reconfigurable power gating. ISCAS (2) 2005: 1654-1657 - 2004
- [c1]Magnus Själander, Henrik Eriksson, Per Larsson-Edefors:
An Efficient Twin-Precision Multiplier. ICCD 2004: 30-33
Coauthor Index
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last updated on 2024-12-02 21:33 CET by the dblp team
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