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Ling Ren 0001
Person information
- affiliation: University of Illinois, Urbana-Champaign, UIUC, USA
- affiliation (former): VMware Research
- affiliation (former): Massachusetts Institute of Technology, MA, USA
- affiliation (former): Tsinghua University, Beijing, China
Other persons with the same name
- Ling Ren 0002 — Julong Co., Ltd, Anshan, China
- Ling Ren 0003 — Hunan University, College of Mathematics and Econometrics, Changsha, China
- Ling Ren 0004 — Tianjin University, School of Electrical and Information Engineering, China
- Ling Ren 0005 — Nanjing University of Aeronautics and Astronautics, China
- Ling Ren 0006 — Shihezi University, Xinjiang Production and Construction Corps Key Laboratory of Modern Agricultural Machinery, China
- Ling Ren 0007 — University of Science and Technology Liaoning, School of Innovation and Entrepreneurship, Anshan, China
- Ling Ren 0008 — Qingdao University of Technology, School of Information and Control Engineering, China
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2020 – today
- 2024
- [j10]Jeremiah Blocki, Peiyuan Liu, Ling Ren, Samson Zhou:
Bandwidth-Hard Functions: Reductions and Lower Bounds. J. Cryptol. 37(2): 16 (2024) - [c59]Sourav Das, Ling Ren:
Adaptively Secure BLS Threshold Signatures from DDH and co-CDH. CRYPTO (7) 2024: 251-284 - [c58]Sourav Das, Zhuolun Xiang, Ling Ren:
Powers of Tau in Asynchrony. NDSS 2024 - [i66]Neil Giridharan, Ittai Abraham, Natacha Crooks, Kartik Nayak, Ling Ren:
Granular Synchrony. CoRR abs/2408.12853 (2024) - [i65]Xiaohai Dai, Chaozheng Ding, Hai Jin, Julian Loss, Ling Ren:
Ipotane: Achieving the Best of All Worlds in Asynchronous BFT. IACR Cryptol. ePrint Arch. 2024: 653 (2024) - [i64]Sourav Das, Sisi Duan, Shengqi Liu, Atsuki Momose, Ling Ren, Victor Shoup:
Asynchronous Consensus without Trusted Setup or Public-Key Cryptography. IACR Cryptol. ePrint Arch. 2024: 677 (2024) - [i63]Ananya Appan, David Heath, Ling Ren:
Oblivious Single Access Machines: A New Model for Oblivious Computation. IACR Cryptol. ePrint Arch. 2024: 1029 (2024) - 2023
- [j9]Ittai Abraham, T.-H. Hubert Chan, Danny Dolev, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Communication complexity of byzantine agreement, revisited. Distributed Comput. 36(1): 3-28 (2023) - [c57]Sourav Das, Philippe Camacho, Zhuolun Xiang, Javier Nieto, Benedikt Bünz, Ling Ren:
Threshold Signatures from Inner Product Argument: Succinct, Weighted, and Multi-threshold. CCS 2023: 356-370 - [c56]Dahlia Malkhi, Atsuki Momose, Ling Ren:
Towards Practical Sleepy BFT. CCS 2023: 490-503 - [c55]Xiaohai Dai, Bolin Zhang, Hai Jin, Ling Ren:
ParBFT: Faster Asynchronous BFT Consensus with a Parallel Optimistic Path. CCS 2023: 504-518 - [c54]Atsuki Momose, Sourav Das, Ling Ren:
On the Security of KZG Commitment for VSS. CCS 2023: 2561-2575 - [c53]Peter Gazi, Ling Ren, Alexander Russell:
Practical Settlement Bounds for Longest-Chain Consensus. CRYPTO (1) 2023: 107-138 - [c52]Jun Wan, Atsuki Momose, Ling Ren, Elaine Shi, Zhuolun Xiang:
On the Amortized Communication Complexity of Byzantine Broadcast. PODC 2023: 253-261 - [c51]Muhammad Haris Mughees, Ling Ren:
Vectorized Batch Private Information Retrieval. SP 2023: 437-452 - [c50]Sourav Das, Zhuolun Xiang, Lefteris Kokoris-Kogias, Ling Ren:
Practical Asynchronous High-threshold Distributed Key Generation and Distributed Polynomial Sampling. USENIX Security Symposium 2023: 5359-5376 - [i62]Atsuki Momose, Ling Ren, Elaine Shi, Jun Wan, Zhuolun Xiang:
On the Amortized Communication Complexity of Byzantine Broadcast. IACR Cryptol. ePrint Arch. 2023: 38 (2023) - [i61]Sourav Das, Philippe Camacho, Zhuolun Xiang, Javier Nieto, Benedikt Bünz, Ling Ren:
Threshold Signatures from Inner Product Argument: Succinct, Weighted, and Multi-threshold. IACR Cryptol. ePrint Arch. 2023: 598 (2023) - [i60]Xiaohai Dai, Bolin Zhang, Hai Jin, Ling Ren:
ParBFT: Faster Asynchronous BFT Consensus with a Parallel Optimistic Path. IACR Cryptol. ePrint Arch. 2023: 679 (2023) - [i59]Muhammad Haris Mughees, Ling Ren:
Simple and Practical Single-Server Sublinear Private Information Retrieval. IACR Cryptol. ePrint Arch. 2023: 1072 (2023) - [i58]Sourav Das, Zhuolun Xiang, Alin Tomescu, Alexander Spiegelman, Benny Pinkas, Ling Ren:
A New Paradigm for Verifiable Secret Sharing. IACR Cryptol. ePrint Arch. 2023: 1196 (2023) - [i57]Atsuki Momose, Sourav Das, Ling Ren:
On the Security of KZG Commitment for VSS. IACR Cryptol. ePrint Arch. 2023: 1350 (2023) - [i56]Sourav Das, Ling Ren:
Adaptively Secure BLS Threshold Signatures from DDH and co-CDH. IACR Cryptol. ePrint Arch. 2023: 1553 (2023) - 2022
- [j8]Gilad Asharov, T.-H. Hubert Chan, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Locality-Preserving Oblivious RAM. J. Cryptol. 35(2): 6 (2022) - [c49]Dongning Guo, Ling Ren:
Bitcoin's Latency-Security Analysis Made Simple. AFT 2022: 244-253 - [c48]Peter Gazi, Ling Ren, Alexander Russell:
Practical Settlement Bounds for Proof-of-Work Blockchains. CCS 2022: 1217-1230 - [c47]Atsuki Momose, Ling Ren:
Constant Latency in Sleepy Consensus. CCS 2022: 2295-2308 - [c46]Nicolas Alhaddad, Sourav Das, Sisi Duan, Ling Ren, Mayank Varia, Zhuolun Xiang, Haibin Zhang:
Balanced Byzantine Reliable Broadcast with Near-Optimal Communication and Improved Computation. PODC 2022: 399-417 - [c45]Nicolas Alhaddad, Sourav Das, Sisi Duan, Ling Ren, Mayank Varia, Zhuolun Xiang, Haibin Zhang:
Brief Announcement: Asynchronous Verifiable Information Dispersal with Near-Optimal Communication. PODC 2022: 418-420 - [c44]Sourav Das, Nitin Awathare, Ling Ren, Vinay J. Ribeiro, Umesh Bellur:
Tuxedo: Maximizing Smart Contract Computation in PoW Blockchains. SIGMETRICS (Abstracts) 2022: 63-64 - [c43]Sourav Das, Vinith Krishnan, Irene Miriam Isaac, Ling Ren:
Spurt: Scalable Distributed Randomness Beacon with Transparent Setup. SP 2022: 2502-2517 - [c42]Sourav Das, Thomas Yurek, Zhuolun Xiang, Andrew Miller, Lefteris Kokoris-Kogias, Ling Ren:
Practical Asynchronous Distributed Key Generation. SP 2022: 2518-2534 - [i55]Dongning Guo, Ling Ren:
Bitcoin's Latency-Security Analysis Made Simple. CoRR abs/2203.06357 (2022) - [i54]Sourav Das, Zhuolun Xiang, Ling Ren:
Balanced Quadratic Reliable Broadcast and Improved Asynchronous Verifiable Information Dispersal. IACR Cryptol. ePrint Arch. 2022: 52 (2022) - [i53]Atsuki Momose, Ling Ren:
Constant Latency in Sleepy Consensus. IACR Cryptol. ePrint Arch. 2022: 404 (2022) - [i52]Nicolas Alhaddad, Sourav Das, Sisi Duan, Ling Ren, Mayank Varia, Zhuolun Xiang, Haibin Zhang:
Asynchronous Verifiable Information Dispersal with Near-Optimal Communication. IACR Cryptol. ePrint Arch. 2022: 775 (2022) - [i51]Nicolas Alhaddad, Sourav Das, Sisi Duan, Ling Ren, Mayank Varia, Zhuolun Xiang, Haibin Zhang:
Balanced Byzantine Reliable Broadcast with Near-Optimal Communication and Improved Computation. IACR Cryptol. ePrint Arch. 2022: 776 (2022) - [i50]Muhammad Haris Mughees, Ling Ren:
Vectorized Batch Private Information Retrieval. IACR Cryptol. ePrint Arch. 2022: 1262 (2022) - [i49]Sourav Das, Zhuolun Xiang, Lefteris Kokoris-Kogias, Ling Ren:
Practical Asynchronous High-threshold Distributed Key Generation and Distributed Polynomial Sampling. IACR Cryptol. ePrint Arch. 2022: 1389 (2022) - [i48]Dahlia Malkhi, Atsuki Momose, Ling Ren:
Byzantine Consensus under Fully Fluctuating Participation. IACR Cryptol. ePrint Arch. 2022: 1448 (2022) - [i47]Peter Gazi, Ling Ren, Alexander Russell:
Practical Settlement Bounds for Longest-Chain Consensus. IACR Cryptol. ePrint Arch. 2022: 1571 (2022) - [i46]Sourav Das, Zhuolun Xiang, Ling Ren:
Powers of Tau in Asynchrony. IACR Cryptol. ePrint Arch. 2022: 1683 (2022) - 2021
- [j7]Sourav Das, Nitin Awathare, Ling Ren, Vinay J. Ribeiro, Umesh Bellur:
Tuxedo: Maximizing Smart Contract Computation in PoW Blockchains. Proc. ACM Meas. Anal. Comput. Syst. 5(3): 41:1-41:30 (2021) - [c41]Jing Li, Dongning Guo, Ling Ren:
Close latency-security trade-off for the Nakamoto consensus. AFT 2021: 100-113 - [c40]Atsuki Momose, Ling Ren:
Multi-Threshold Byzantine Fault Tolerance. CCS 2021: 1686-1699 - [c39]Muhammad Haris Mughees, Hao Chen, Ling Ren:
OnionPIR: Response Efficient Single-Server PIR. CCS 2021: 2292-2306 - [c38]Sourav Das, Zhuolun Xiang, Ling Ren:
Asynchronous Data Dissemination and its Applications. CCS 2021: 2705-2721 - [c37]Zhuolun Xiang, Dahlia Malkhi, Kartik Nayak, Ling Ren:
Strengthened Fault Tolerance in Byzantine Fault Tolerant Replication. ICDCS 2021: 205-215 - [c36]Ittai Abraham, Ling Ren, Zhuolun Xiang:
Good-Case and Bad-Case Latency of Unauthenticated Byzantine Broadcast: A Complete Categorization. OPODIS 2021: 5:1-5:20 - [c35]Ittai Abraham, Kartik Nayak, Ling Ren, Zhuolun Xiang:
Good-case Latency of Byzantine Broadcast: a Complete Categorization. PODC 2021: 331-341 - [c34]Atsuki Momose, Ling Ren:
Optimal Communication Complexity of Authenticated Byzantine Agreement. DISC 2021: 32:1-32:16 - [i45]Zhuolun Xiang, Dahlia Malkhi, Kartik Nayak, Ling Ren:
Strengthened Fault Tolerance in Byzantine Fault Tolerant Replication. CoRR abs/2101.03715 (2021) - [i44]Ittai Abraham, Kartik Nayak, Ling Ren, Zhuolun Xiang:
Good-case Latency of Byzantine Broadcast: a Complete Categorization. CoRR abs/2102.07240 (2021) - [i43]Ittai Abraham, Kartik Nayak, Ling Ren, Zhuolun Xiang:
Brief Note: Fast Authenticated Byzantine Consensus. CoRR abs/2102.07932 (2021) - [i42]Ittai Abraham, Ling Ren, Zhuolun Xiang:
Good-case and Bad-case Latency of Unauthenticated Byzantine Broadcast: A Complete Categorization. CoRR abs/2109.12454 (2021) - [i41]Sourav Das, Vinith Krishnan, Irene Miriam Isaac, Ling Ren:
SPURT: Scalable Distributed Randomness Beacon with Transparent Setup. IACR Cryptol. ePrint Arch. 2021: 100 (2021) - [i40]Atsuki Momose, Ling Ren:
Multi-Threshold Byzantine Fault Tolerance. IACR Cryptol. ePrint Arch. 2021: 671 (2021) - [i39]Sourav Das, Zhuolun Xiang, Ling Ren:
Asynchronous Data Dissemination and its Applications. IACR Cryptol. ePrint Arch. 2021: 777 (2021) - [i38]Peter Gazi, Ling Ren, Alexander Russell:
Practical Settlement Bounds for Proof-of-Work Blockchains. IACR Cryptol. ePrint Arch. 2021: 805 (2021) - [i37]Muhammad Haris Mughees, Hao Chen, Ling Ren:
OnionPIR: Response Efficient Single-Server PIR. IACR Cryptol. ePrint Arch. 2021: 1081 (2021) - [i36]Sourav Das, Tom Yurek, Zhuolun Xiang, Andrew Miller, Lefteris Kokoris-Kogias, Ling Ren:
Practical Asynchronous Distributed Key Generation. IACR Cryptol. ePrint Arch. 2021: 1591 (2021) - 2020
- [j6]Emil Stefanov, Marten van Dijk, Elaine Shi, Christopher W. Fletcher, Ling Ren, Xiangyao Yu, Srinivas Devadas:
A Retrospective on Path ORAM. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(8): 1572-1576 (2020) - [c33]Nibesh Shrestha, Ittai Abraham, Ling Ren, Kartik Nayak:
On the Optimality of Optimistic Responsiveness. CCS 2020: 839-857 - [c32]Gilad Asharov, T.-H. Hubert Chan, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Bucket Oblivious Sort: An Extremely Simple Oblivious Sort. SOSA 2020: 8-14 - [c31]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren, Maofan Yin:
Sync HotStuff: Simple and Practical Synchronous State Machine Replication. SP 2020: 106-118 - [c30]Kartik Nayak, Ling Ren, Elaine Shi, Nitin H. Vaidya, Zhuolun Xiang:
Improved Extension Protocols for Byzantine Broadcast and Agreement. DISC 2020: 28:1-28:17 - [c29]Ittai Abraham, Kartik Nayak, Ling Ren, Zhuolun Xiang:
Brief Announcement: Byzantine Agreement, Broadcast and State Machine Replication with Optimal Good-Case Latency. DISC 2020: 47:1-47:3 - [i35]Kartik Nayak, Ling Ren, Elaine Shi, Nitin H. Vaidya, Zhuolun Xiang:
Improved Extension Protocols for Byzantine Broadcast and Agreement. CoRR abs/2002.11321 (2020) - [i34]Ittai Abraham, Kartik Nayak, Ling Ren, Zhuolun Xiang:
Optimal Good-case Latency for Byzantine Broadcast and State Machine Replication. CoRR abs/2003.13155 (2020) - [i33]Sourav Das, Nitin Awathare, Ling Ren, Vinay Joseph Ribeiro, Umesh Bellur:
Better Late than Never; Scaling Computation in Blockchains by Delaying Execution. CoRR abs/2005.11791 (2020) - [i32]Atsuki Momose, Ling Ren:
Optimal Communication Complexity of Byzantine Consensus under Honest Majority. CoRR abs/2007.13175 (2020) - [i31]Sourav Das, Vinith Krishnan, Ling Ren:
Efficient Cross-Shard Transaction Execution in Sharded Blockchains. CoRR abs/2007.14521 (2020) - [i30]Gilad Asharov, T.-H. Hubert Chan, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Bucket Oblivious Sort: An Extremely Simple Oblivious Sort. CoRR abs/2008.01765 (2020) - [i29]Jing Li, Dongning Guo, Ling Ren:
Close Latency-Security Trade-off for the Nakamoto Consensus. CoRR abs/2011.14051 (2020) - [i28]Ittai Abraham, Kartik Nayak, Ling Ren, Nibesh Shrestha:
On the Optimality of Optimistic Responsiveness. IACR Cryptol. ePrint Arch. 2020: 458 (2020) - [i27]Atsuki Momose, Ling Ren:
Optimal Communication Complexity of Byzantine Agreement, Revisited. IACR Cryptol. ePrint Arch. 2020: 1569 (2020)
2010 – 2019
- 2019
- [j5]Ling Ren, Christopher W. Fletcher, Albert Kwon, Marten van Dijk, Srinivas Devadas:
Design and Implementation of the Ascend Secure Processor. IEEE Trans. Dependable Secur. Comput. 16(2): 204-216 (2019) - [c28]Hao Chen, Ilaria Chillotti, Ling Ren:
Onion Ring ORAM: Efficient Constant Bandwidth Oblivious RAM from (Leveled) TFHE. CCS 2019: 345-360 - [c27]Dahlia Malkhi, Kartik Nayak, Ling Ren:
Flexible Byzantine Fault Tolerance. CCS 2019: 1041-1053 - [c26]Gilad Asharov, T.-H. Hubert Chan, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Locality-Preserving Oblivious RAM. EUROCRYPT (2) 2019: 214-243 - [c25]Ittai Abraham, Srinivas Devadas, Danny Dolev, Kartik Nayak, Ling Ren:
Synchronous Byzantine Agreement with Expected O(1) Rounds, Expected O(n2) Communication, and Optimal Resilience. Financial Cryptography 2019: 320-334 - [c24]Ittai Abraham, T.-H. Hubert Chan, Danny Dolev, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Communication Complexity of Byzantine Agreement, Revisited. PODC 2019: 317-326 - [i26]Dahlia Malkhi, Kartik Nayak, Ling Ren:
Flexible Byzantine Fault Tolerance. CoRR abs/1904.10067 (2019) - [i25]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren, Maofan Yin:
Sync HotStuff: Synchronous SMR with 2∆ Latency and Optimistic Responsiveness. IACR Cryptol. ePrint Arch. 2019: 270 (2019) - [i24]Hao Chen, Ilaria Chillotti, Ling Ren:
Onion Ring ORAM: Efficient Constant Bandwidth Oblivious RAM from (Leveled) TFHE. IACR Cryptol. ePrint Arch. 2019: 736 (2019) - [i23]Ling Ren:
Analysis of Nakamoto Consensus. IACR Cryptol. ePrint Arch. 2019: 943 (2019) - 2018
- [b1]Ling Ren:
Efficient and egalitarian consensus. Massachusetts Institute of Technology, Cambridge, USA, 2018 - [j4]Emil Stefanov, Marten van Dijk, Elaine Shi, T.-H. Hubert Chan, Christopher W. Fletcher, Ling Ren, Xiangyao Yu, Srinivas Devadas:
Path ORAM: An Extremely Simple Oblivious RAM Protocol. J. ACM 65(4): 18:1-18:26 (2018) - [c23]Jeremiah Blocki, Ling Ren, Samson Zhou:
Bandwidth-Hard Functions: Reductions and Lower Bounds. CCS 2018: 1820-1836 - [c22]Hamza Omar, Syed Kamran Haider, Ling Ren, Marten van Dijk, Omer Khan:
Breaking the Oblivious-RAM Bandwidth Wall. ICCD 2018: 115-122 - [i22]Jeremiah Blocki, Ling Ren, Samson Zhou:
Bandwidth-Hard Functions: Reductions and Lower Bounds. IACR Cryptol. ePrint Arch. 2018: 221 (2018) - [i21]Ittai Abraham, Srinivas Devadas, Danny Dolev, Kartik Nayak, Ling Ren:
Synchronous Byzantine Agreement with Expected O(1) Rounds, Expected O(n2) Communication, and Optimal Resilience. IACR Cryptol. ePrint Arch. 2018: 1028 (2018) - [i20]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren:
Dfinity Consensus, Explored. IACR Cryptol. ePrint Arch. 2018: 1153 (2018) - 2017
- [j3]Chenglu Jin, Charles Herder, Ling Ren, Phuong Ha Nguyen, Benjamin Fuller, Srinivas Devadas, Marten van Dijk:
FPGA Implementation of a Cryptographically-Secure PUF Based on Learning Parity with Noise. Cryptogr. 1(3): 23 (2017) - [j2]Charles Herder, Ling Ren, Marten van Dijk, Meng-Day (Mandel) Yu, Srinivas Devadas:
Trapdoor Computational Fuzzy Extractors and Stateless Cryptographically-Secure Physical Unclonable Functions. IEEE Trans. Dependable Secur. Comput. 14(1): 65-82 (2017) - [c21]Leo Alcock, Ling Ren:
A Note on the Security of Equihash. CCSW 2017: 51-55 - [c20]Kartik Nayak, Christopher W. Fletcher, Ling Ren, Nishanth Chandran, Satya V. Lokam, Elaine Shi, Vipul Goyal:
HOP: Hardware makes Obfuscation Practical. NDSS 2017 - [c19]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren, Alexander Spiegelman:
Solida: A Blockchain Protocol Based on Reconfigurable Byzantine Consensus. OPODIS 2017: 25:1-25:19 - [c18]Ittai Abraham, Christopher W. Fletcher, Kartik Nayak, Benny Pinkas, Ling Ren:
Asymptotically Tight Bounds for Composing ORAM with PIR. Public Key Cryptography (1) 2017: 91-120 - [c17]Ling Ren, Srinivas Devadas:
Bandwidth Hard Functions for ASIC Resistance. TCC (1) 2017: 466-492 - [c16]Srinivas Devadas, Ling Ren, Hanshen Xiao:
On Iterative Collision Search for LPN and Subset Sum. TCC (2) 2017: 729-746 - [c15]Ittai Abraham, Srinivas Devadas, Kartik Nayak, Ling Ren:
Brief Announcement: Practical Synchronous Byzantine Consensus. DISC 2017: 41:1-41:4 - [i19]Ling Ren, Kartik Nayak, Ittai Abraham, Srinivas Devadas:
Practical Synchronous Byzantine Consensus. CoRR abs/1704.02397 (2017) - [i18]Ling Ren, Srinivas Devadas:
Bandwidth Hard Functions for ASIC Resistance. IACR Cryptol. ePrint Arch. 2017: 225 (2017) - [i17]Ling Ren, Kartik Nayak, Ittai Abraham, Srinivas Devadas:
Practical Synchronous Byzantine Consensus. IACR Cryptol. ePrint Arch. 2017: 307 (2017) - [i16]Gilad Asharov, T.-H. Hubert Chan, Kartik Nayak, Rafael Pass, Ling Ren, Elaine Shi:
Oblivious Computation with Data Locality. IACR Cryptol. ePrint Arch. 2017: 772 (2017) - [i15]Srinivas Devadas, Ling Ren, Hanshen Xiao:
On Iterative Collision Search for LPN and Subset Sum. IACR Cryptol. ePrint Arch. 2017: 904 (2017) - [i14]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren, Alexander Spiegelman:
Solida: A Blockchain Protocol Based on Reconfigurable Byzantine Consensus. IACR Cryptol. ePrint Arch. 2017: 1118 (2017) - 2016
- [c14]Srinivas Devadas, Marten van Dijk, Christopher W. Fletcher, Ling Ren, Elaine Shi, Daniel Wichs:
Onion ORAM: A Constant Bandwidth Blowup Oblivious RAM. TCC (A2) 2016: 145-174 - [c13]Ling Ren, Srinivas Devadas:
Proof of Space from Stacked Expanders. TCC (B1) 2016: 262-285 - [i13]Ittai Abraham, Dahlia Malkhi, Kartik Nayak, Ling Ren, Alexander Spiegelman:
Solidus: An Incentive-compatible Cryptocurrency Based on Permissionless Byzantine Consensus. CoRR abs/1612.02916 (2016) - [i12]Ling Ren, Srinivas Devadas:
Proof of Space from Stacked Bipartite Graphs. IACR Cryptol. ePrint Arch. 2016: 333 (2016) - [i11]Kartik Nayak, Ling Ren, Ittai Abraham, Benny Pinkas:
An Oblivious RAM with Sub-logarithmic Bandwidth Blowup. IACR Cryptol. ePrint Arch. 2016: 849 (2016) - 2015
- [j1]Xiaoming Chen, Ling Ren, Yu Wang, Huazhong Yang:
GPU-Accelerated Sparse LU Factorization for Circuit Simulation with Performance Modeling. IEEE Trans. Parallel Distributed Syst. 26(3): 786-795 (2015) - [c12]Christopher W. Fletcher, Ling Ren, Albert Kwon, Marten van Dijk, Srinivas Devadas:
Freecursive ORAM: [Nearly] Free Recursion and Integrity Verification for Position-based Oblivious RAM. ASPLOS 2015: 103-116 - [c11]Christopher W. Fletcher, Ling Ren, Albert Kwon, Marten van Dijk, Emil Stefanov, Dimitrios N. Serpanos, Srinivas Devadas:
A Low-Latency, Low-Area Hardware Oblivious RAM Controller. FCCM 2015: 215-222 - [c10]Xiangyao Yu, Syed Kamran Haider, Ling Ren, Christopher W. Fletcher, Albert Kwon, Marten van Dijk, Srinivas Devadas:
PrORAM: dynamic prefetcher for oblivious RAM. ISCA 2015: 616-628 - [c9]Ling Ren, Christopher W. Fletcher, Albert Kwon, Emil Stefanov, Elaine Shi, Marten van Dijk, Srinivas Devadas:
Constants Count: Practical Improvements to Oblivious RAM. USENIX Security Symposium 2015: 415-430 - [i10]Nathan Wolfe, Ethan Zou, Ling Ren, Xiangyao Yu:
Optimizing Path ORAM for Cloud Storage Applications. CoRR abs/1501.01721 (2015) - [i9]