2022 
Papers (148)
| # | Title | |
| 1. | Bullshark: Dag bft protocols made practical Spiegelman, Alexander and Giridharan, Neil and Sonnino, Alberto and Kokoris-Kogias, Lefteris. 2022. | |
| 2. | SoK: Decentralized Finance (DeFi) Attacks Liyi Zhou and Xihan Xiong and Jens Ernstberger and Stefanos Chaliasos and Zhipeng Wang and Ye Wang and Kaihua Qin and Roger Wattenhofer and Dawn Song and Arthur Gervais. 2022. | |
| 3. | HyperPlonk: Plonk with Linear-Time Prover and High-Degree Custom Gates Binyi Chen and Benedikt Bünz and Dan Boneh and Zhenfei Zhang. 2022. | |
| 4. | zkbridge: Trustless cross-chain bridges made practical Xie, Tiancheng and Zhang, Jiaheng and Cheng, Zerui and Zhang, Fan and Zhang, Yupeng and Jia, Yongzheng and Boneh, Dan and Song, Dawn. 2022. | |
| 5. | Jolteon and ditto: Network-adaptive efficient consensus with asynchronous fallback Gelashvili, Rati and Kokoris-Kogias, Lefteris and Sonnino, Alberto and Spiegelman, Alexander and Xiang, Zhuolun. 2022. | |
| 6. | Redesigning Bitcoin’s fee market Lavi, Ron and Sattath, Or and Zohar, Aviv. 2022. | |
| 7. | Practical asynchronous distributed key generation Das, Sourav and Yurek, Thomas and Xiang, Zhuolun and Miller, Andrew and Kokoris-Kogias, Lefteris and Ren, Ling. 2022. | |
| 8. | Universal atomic swaps: Secure exchange of coins across all blockchains Thyagarajan, Sri AravindaKrishnan and Malavolta, Giulio and Moreno-Sanchez, Pedro. 2022. | |
| 9. | DispersedLedger:High-Throughput Byzantine Consensus on Variable Bandwidth Networks Yang, Lei and Park, Seo Jin and Alizadeh, Mohammad and Kannan, Sreeram and Tse, David. 2022. | |
| 10. | Orion: Zero Knowledge Proof with Linear Prover Time Tiancheng Xie and Yupeng Zhang and Dawn Song. 2022. | |
| 11. | Good-case Latency of Byzantine Broadcast: A Complete Categorization Ittai Abraham and Kartik Nayak and Ling Ren and Zhuolun Xiang. 2022. | |
| 12. | Foundations of Transaction Fee Mechanism Design Hao Chung and Elaine Shi. 2022. | |
| 13. | SoK: Preventing Transaction Reordering Manipulations in Decentralized Finance Heimbach, Lioba and Wattenhofer, Roger. 2022. | |
| 14. | ZeeStar: Private Smart Contracts by Homomorphic Encryption and Zero-knowledge Proofs Steffen, Samuel and Bichsel, Benjamin and Baumgartner, Roger and Vechev, Martin. 2022. | |
| 15. | Maximal Extractable Value (MEV) Protection on a DAG Malkhi, Dahlia and Szalachowski, Pawel. 2022. | |
| 16. | A flash(bot) in the pan Ben Weintraub and Christof Ferreira Torres and Cristina Nita-Rotaru and Radu State. 2022. | |
| 17. | Cyclic Arbitrage in Decentralized Exchanges Wang, Ye and Chen, Yan and Wu, Haotian and Zhou, Liyi and Deng, Shuiguang and Wattenhofer, Roger. 2022. | |
| 18. | Order-fair consensus in the permissionless setting Kelkar, Mahimna and Deb, Soubhik and Kannan, Sreeram. 2022. | |
| 19. | Caulk: Lookup Arguments in Sublinear Time Arantxa Zapico and Vitalik Buterin and Dmitry Khovratovich and Mary Maller and Anca Nitulescu and Mark Simkin. 2022. | |
| 20. | Experimenting with Collaborative $\{$zk-SNARKs$\}$:$\{$Zero-Knowledge$\}$ Proofs for Distributed Secrets Ozdemir, Alex and Boneh, Dan. 2022. | |
| 21. | SoK: Not Quite Water Under the Bridge: Review of Cross-Chain Bridge Hacks Sung-Shine Lee and Alexandr Murashkin and Martin Derka and Jan Gorzny. 2022. | |
| 22. | SoK: MEV Countermeasures: Theory and Practice Sen Yang and Fan Zhang and Ken Huang and Xi Chen and Youwei Yang and Feng Zhu. 2022. | |
| 23. | SuperNova: Proving universal machine executions without universal circuits Abhiram Kothapalli and Srinath Setty. 2022. | |
| 24. | On How Zero-Knowledge Proof Blockchain Mixers Improve, and Worsen User Privacy Wang, Zhipeng and Chaliasos, Stefanos and Qin, Kaihua and Zhou, Liyi and Gao, Lifeng and Berrang, Pascal and Livshits, Ben and Gervais, Arthur. 2022. | |
| 25. | A Review of zk-SNARKs Chen, Thomas and Lu, Hui and Kunpittaya, Teeramet and Luo, Alan. 2022. | |
| 26. | Powers-of-Tau to the People: Decentralizing Setup Ceremonies Nikolaenko, Valeria and Ragsdale, Sam and Bonneau, Joseph and Boneh, Dan. 2022. | |
| 27. | cq: Cached quotients for fast lookups Liam Eagen and Dario Fiore and Ariel Gabizon. 2022. | |
| 28. | A survey of elliptic curves for proof systems Aranha, Diego F and El Housni, Youssef and Guillevic, Aurore. 2022. | |
| 29. | COBRA: Dynamic Proactive Secret Sharing for Confidential BFT Services Vassantlal, Robin and Alchieri, Eduardo and Ferreira, Bernardo and Bessani, Alysson. 2022. | |
| 30. | Block-STM: Scaling Blockchain Execution by Turning Ordering Curse to a Performance Blessing Gelashvili, Rati and Spiegelman, Alexander and Xiang, Zhuolun and Danezis, George and Li, Zekun and Xia, Yu and Zhou, Runtian and Malkhi, Dahlia. 2022. | |
| 31. | Multivariate lookups based on logarithmic derivatives Ulrich Haböck. 2022. | |
| 32. | Towards a theory of maximal extractable value i: Constant function market makers Kulkarni, Kshitij and Diamandis, Theo and Chitra, Tarun. 2022. | |
| 33. | Practical Asynchronous High-threshold Distributed Key Generation and Distributed Polynomial Sampling Das, Sourav and Xiang, Zhuolun and Kokoris-Kogias, Lefteris and Ren, Ling. 2022. | |
| 34. | $$\backslash$mathsf $\{$PEReDi$\}$ $: Privacy-Enhanced, Regulated and Distributed Central Bank Digital Currencies Kiayias, Aggelos and Kohlweiss, Markulf and Sarencheh, Amirreza. 2022. | |
| 35. | Succinct Vector, Polynomial, and Functional Commitments from Lattices Hoeteck Wee and David J. Wu. 2022. | |
| 36. | Efficient asynchronous byzantine agreement without private setups Gao, Yingzi and Lu, Yuan and Lu, Zhenliang and Tang, Qiang and Xu, Jing and Zhang, Zhenfeng. 2022. | |
| 37. | Integration of Blockchain and Auction Models: A Survey, Some Applications, and Challenges Shi, Zeshun and de Laat, Cees and Grosso, Paola and Zhao, Zhiming. 2022. | |
| 38. | Baloo: Nearly Optimal Lookup Arguments Zapico, Arantxa and Gabizon, Ariel and Khovratovich, Dmitry and Maller, Mary and R\`afols, Carla. 2022. | |
| 39. | VERI-ZEXE: Decentralized private computation with universal setup Xiong, Alex Luoyuan and Chen, Binyi and Zhang, Zhenfei and B\"unz, Benedikt and Fisch, Ben and Krell, Fernando and Camacho, Philippe. 2022. | |
| 40. | SoK: Decentralized Randomness Beacon Protocols Raikwar, Mayank and Gligoroski, Danilo. 2022. | |
| 41. | FairTraDEX: A Decentralised Exchange Preventing Value Extraction McMenamin, Conor and Daza, Vanesa and Fitzi, Matthias. 2022. | |
| 42. | Caulk+: Table-independent lookup arguments Jim Posen and Assimakis A. Kattis. 2022. | |
| 43. | Elipmoc: Advanced Decompilation of Ethereum Smart Contracts GRECH, NEVILLE and LAGOUVARDOS, SIFIS and TSATIRIS, ILIAS and SMARAGDAKIS, YANNIS. 2022. | |
| 44. | Batching, Aggregation, and Zero-Knowledge Proofs in Bilinear Accumulators Srinivasan, Shravan and Karantaidou, Ioanna and Baldimtsi, Foteini and Papamanthou, Charalampos. 2022. | |
| 45. | Thora: Atomic And Privacy-Preserving Multi-Channel Updates Aumayr, Lukas and Abbaszadeh, Kasra and Maffei, Matteo. 2022. | |
| 46. | Bitcoin's Latency--Security Analysis Made Simple Guo, Dongning and Ren, Ling. 2022. | |
| 47. | Eagle: Efficient Privacy Preserving Smart Contracts Carsten Baum and James Hsin-yu Chiang and Bernardo David and Tore Kasper Frederiksen. 2022. | |
| 48. | Uncle Maker: (Time)Stamping Out The Competition in Ethereum Aviv Yaish and Gilad Stern and Aviv Zohar. 2022. | |
| 49. | Plonkup: Reconciling plonk with plookup Pearson, Luke and Fitzgerald, Joshua and Masip, H\'ector and Bell\'es-Mu\~noz, Marta and Mu\~noz-Tapia, Jose Luis. 2022. | |
| 50. | VeRSA: Verifiable Registries with Efficient Client Audits from RSA Authenticated Dictionaries Tyagi, Nirvan and Fisch, Ben and Zitek, Andrew and Bonneau, Joseph and Tessaro, Stefano. 2022. | |
| 51. | An analysis of the algebraic group model Katz, Jonathan and Zhang, Cong and Zhou, Hong-Sheng. 2022. | |
| 52. | Witness-Succinct Universally-Composable SNARKs Ganesh, Chaya and Kondi, Yashvanth and Orlandi, Claudio and Pancholi, Mahak and Takahashi, Akira and Tschudi, Daniel. 2022. | |
| 53. | Bingo: Adaptively Secure Packed Asynchronous Verifiable Secret Sharing and Asynchronous Distributed Key Generation Ittai Abraham and Philipp Jovanovic and Mary Maller and Sarah Meiklejohn and Gilad Stern. 2022. | |
| 54. | Staking Pools on Blockchains Gersbach, Hans and Mamageishvili, Akaki and Schneider, Manvir. 2022. | |
| 55. | FlashSyn: Flash Loan Attack Synthesis via Counter Example Driven Approximation Zhiyang Chen and Sidi Mohamed Beillahi and Fan Long. 2022. | |
| 56. | Counting Vampires: From Univariate Sumcheck to Updatable ZK-SNARK Helger Lipmaa and Janno Siim and Michal Zajac. 2022. | |
| 57. | Byzantine Consensus is$\backslash$Theta (n\^{} 2): The Dolev-Reischuk Bound is Tight even in Partial Synchrony![Extended Version] Civit, Pierre and Dzulfikar, Muhammad Ayaz and Gilbert, Seth and Gramoli, Vincent and Guerraoui, Rachid and Komatovic, Jovan and Vidigueira, Manuel. 2022. | |
| 58. | flookup: Fractional decomposition-based lookups in quasi-linear time independent of table size Ariel Gabizon and Dmitry Khovratovich. 2022. | |
| 59. | MinRoot: Candidate Sequential Function for Ethereum VDF Dmitry Khovratovich and Mary Maller and Pratyush Ranjan Tiwari. 2022. | |
| 60. | Improving Proof of Stake Economic Security via MEV Redistribution Chitra, Tarun and Kulkarni, Kshitij. 2022. | |
| 61. | Linear-map Vector Commitments and their Practical Applications Matteo Campanelli and Anca Nitulescu and Carla Ràfols and Alexandros Zacharakis and Arantxa Zapico. 2022. | |
| 62. | Short-lived zero-knowledge proofs and signatures Arasu Arun and Joseph Bonneau and Jeremy Clark. 2022. | |
| 63. | MIR-BFT: SCALABLE AND ROBUST BFT FOR DECENTRALIZED NETWORKS STATHAKOPOULOU, CHRYSOULA and DAVID, TUDOR and PAVLOVIC, MATEJ and VUKOLI, MARKO. 2022. | |
| 64. | Transparent Batchable Time-lock Puzzles and Applications to Byzantine Consensus Shravan Srinivasan and Julian Loss and Giulio Malavolta and Kartik Nayak and Charalampos Papamanthou and Sri AravindaKrishnan Thyagarajan. 2022. | |
| 65. | BalanceProofs: Maintainable Vector Commitments with Fast Aggregation Weijie Wang and Annie Ulichney and Charalampos Papamanthou. 2022. | |
| 66. | Curve Trees: Practical and Transparent Zero-Knowledge Accumulators Matteo Campanelli and Mathias Hall-Andersen and Simon Holmgaard Kamp. 2022. | |
| 67. | Proof of Availability & Retrieval in a Modular Blockchain Architecture Shir Cohen and Guy Goren and Lefteris Kokoris-Kogias and Alberto Sonnino and Alexander Spiegelman. 2022. | |
| 68. | Dew: Transparent Constant-sized {zkSNARKs} Arasu Arun and Chaya Ganesh and Satya Lokam and Tushar Mopuri and Sriram Sridhar. 2022. | |
| 69. | Speed-Stacking: Fast Sublinear Zero-Knowledge Proofs for Disjunctions Aarushi Goel and Mathias Hall-Andersen and Gabriel Kaptchuk and Nicholas Spooner. 2022. | |
| 70. | How Do Smart Contracts Benefit Security Protocols? Li, Rujia and Wang, Qin and Wang, Qi and Galindo, David. 2022. | |
| 71. | OptRand: Optimistically responsive distributed random beacons Adithya Bhat and Aniket Kate and Kartik Nayak and Nibesh Shrestha. 2022. | |
| 72. | Adaptively Secure Single Secret Leader Election from DDH Dario Catalano and Dario Fiore and Emanuele Giunta. 2022. | |
| 73. | {aPlonK} : Aggregated {PlonK} from Multi-Polynomial Commitment Schemes Miguel Ambrona and Marc Beunardeau and Anne-Laure Schmitt and Raphaël R. Toledo. 2022. | |
| 74. | On Succinct Non-Interactive Arguments in Relativized Worlds Chen, Megan and Chiesa, Alessandro and Spooner, Nicholas. 2022. | |
| 75. | Succinct Zero Knowledge for Floating Point Computations Garg, Sanjam and Jain, Abhishek and Jin, Zhengzhong and Zhang, Yinuo. 2022. | |
| 76. | Quadratic worst-case message complexity for State Machine Replication in the partial synchrony model Lewis-Pye, Andrew. 2022. | |
| 77. | Cryptography with Weights: MPC, Encryption and Signatures Sanjam Garg and Abhishek Jain and Pratyay Mukherjee and Rohit Sinha and Mingyuan Wang and Yinuo Zhang. 2022. | |
| 78. | Automated Market Makers: Mean-Variance Analysis of LPs Payoffs and Design of Pricing Functions Bergault, Philippe and Bertucci, Louis and Bouba, David and Gu\'eant, Olivier. 2022. | |
| 79. | Scaling Blockchains with Error Correction Codes: A Survey on Coded Blockchains Yang, Changlin and Chin, Kwan-Wu and Wang, Jiguang and Wang, Xiaodong and Liu, Ying and Zheng, Zibin. 2022. | |
| 80. | Scaling Blockchains with Error Correction Codes: A Survey on Coded Blockchains Yang, Changlin and Chin, Kwan-Wu and Wang, Jiguang and Wang, Xiaodong and Liu, Ying and Zheng, Zibin. 2022. | |
| 81. | Co-factor clearing and subgroup membership testing on pairing-friendly curves Youssef El Housni and Aurore Guillevic and Thomas Piellard. 2022. | |
| 82. | State Machine Replication under Changing Network Conditions Andreea B. Alexandru and Erica Blum and Jonathan Katz and Julian Loss. 2022. | |
| 83. | SoK: Play-to-Earn Projects Yu, Jingfan and Zhang, Mengqian and Chen, Xi and Fang, Zhixuan. 2022. | |
| 84. | Cryptoeconomic Security for Data Availability Committees Tas, Ertem Nusret and Boneh, Dan. 2022. | |
| 85. | TrustBoost: Boosting Trust among Interoperable Blockchains Wang, Xuechao and Sheng, Peiyao and Kannan, Sreeram and Nayak, Kartik and Viswanath, Pramod. 2022. | |
| 86. | Formalising Decentralised Exchanges in Coq Nielsen, Eske Hoy and Annenkov, Danil and Spitters, Bas. 2022. | |
| 87. | Revisiting cycles of pairing-friendly elliptic curves Marta Bellés-Muñoz and Jorge Jiménez Urroz and Javier Silva. 2022. | |
| 88. | LightSwap: An Atomic Swap Does Not Require Timeouts At Both Blockchains Philipp Hoenisch and Subhra Mazumdar and Pedro Moreno-Sanchez and Sushmita Ruj. 2022. | |
| 89. | Bulletproofs++: Next Generation Confidential Transactionsvia Reciprocal Set Membership Arguments Liam Eagen. 2022. | |
| 90. | Simple, Fast, Efficient, and Tightly-Secure Non-Malleable Non-Interactive Timed Commitments Peter Chvojka and Tibor Jager. 2022. | |
| 91. | Shades of Finality and Layer 2 Scaling Yee, Bennet and Song, Dawn and McCorry, Patrick and Buckland, Chris. 2022. | |
| 92. | A primer on perpetuals Guillermo Angeris and Tarun Chitra and Alex Evans and Matthew Lorig. 2022. | |
| 93. | Dispute-free Scalable Open Vote Network using zk-SNARKs ElSheikh, Muhammad and Youssef, Amr M. 2022. | |
| 94. | Light Clients for Lazy Blockchains Tas, Ertem Nusret and Zindros, Dionysis and Yang, Lei and Tse, David. 2022. | |
| 95. | Sweep-UC: Swapping Coins Privately Hanzlik, Lucjan and Loss, Julian and Thyagarajan, Sri AravindaKrishnan and Wagner, Benedikt. 2022. | |
| 96. | Practical Asynchronous Proactive Secret Sharing and Key Refresh G\"unther, Christoph U. and Das, Sourav and Kokoris-Kogias, Lefteris. 2022. | |
| 97. | Proofs of discrete logarithm equality across groups Melissa Chase and Michele Orrù and Trevor Perrin and Greg Zaverucha. 2022. | |
| 98. | Measuring miner decentralization in proof-of-work blockchains Long, Sishan and Basu, Soumya and Sirer, Emin G\"un. 2022. | |
| 99. | CollaChain: A BFT Collaborative Middleware for Decentralized Applications Tennakoon, Deepal and Hua, Yiding and Gramoli, Vincent. 2022. | |
| 100. | DeFi liquidity management via Optimal Control: Ohm as a case study Chitra, Tarun and Kulkarni, Kshitij and Angeris, Guillermo and Evans, Alex and Xu, Victor. 2022. | |
| 101. | PESCA: A Privacy-Enhancing Smart-Contract Architecture Wei Dai. 2022. | |
| 102. | Folding Schemes with Selective Verification Carla Ràfols and Alexandros Zacharakis. 2022. | |
| 103. | Optimistic and Validity Rollups: Analysis and Comparison between Optimism and StarkNet Donno, Luca. 2022. | |
| 104. | Accountable Safety for Rollups Tas, Ertem Nusret and Adler, John and Al-Bassam, Mustafa and Khoffi, Ismail and Tse, David and Vaziri, Nima. 2022. | |
| 105. | Colordag: An Incentive-Compatible Blockchain Abraham, Ittai and Dolev, Danny and Eyal, Ittay and Halpern, Joseph Y. 2022. | |
| 106. | Efficient Algorithms for Large Prime Characteristic Fields and Their Application to Bilinear Pairings and Supersingular Isogeny-Based Protocols Patrick Longa. 2022. | |
| 107. | Compute, but Verify: Efficient Multiparty Computation over Authenticated Inputs Moumita Dutta and Chaya Ganesh and Sikhar Patranabis and Nitin Singh. 2022. | |
| 108. | Competitive Decentralized Randomness Beacon Protocols Raikwar, Mayank. 2022. | |
| 109. | CycloneNTT: An NTT/FFT Architecture Using Quasi-Streaming of Large Datasets on DDR- and HBM-based FPGA Platforms Kaveh Aasaraai and Emanuele Cesena and Rahul Maganti and Nicolas Stalder and Javier Varela and Kevin Bowers. 2022. | |
| 110. | Last Mile of Blockchains: RPC and Node-as-a-service Luo, Zhongtang and Murukutla, Rohan and Kate, Aniket. 2022. | |
| 111. | ACon $\^{} 2$: Adaptive Conformal Consensus for Provable Blockchain Oracles Park, Sangdon and Bastani, Osbert and Kim, Taesoo. 2022. | |
| 112. | Efficient Dynamic Proof of Retrievability for Cold Storage Tung Le and Pengzhi Huang and Attila A. Yavuz and Elaine Shi and Thang Hoang. 2022. | |
| 113. | CryptoConcurrency:(Almost) Consensusless Asset Transfer with Shared Accounts Kuznetsov, Petr and Pignolet, Yvonne-Anne and Ponomarev, Pavel and Tonkikh, Andrei. 2022. | |
| 114. | PoRt: Non-Interactive Continuous Availability Proof of Replicated Storage Reyhaneh Rabaninejad and Bin Liu and Antonis Michalas. 2022. | |
| 115. | Proactive Refresh for Accountable Threshold Signatures Dan Boneh and Aditi Partap and Lior Rotem. 2022. | |
| 116. | ZK-SecreC: a Domain-Specific Language for Zero Knowledge Proofs Bogdanov, Dan and J\"a\"ager, Joosep and Laud, Peeter and Nestra, H\"armel and Pettai, Martin and Randmets, Jaak and Sokk, Ville and Tali, Kert and Valdma, Sandhra-Mirella. 2022. | |
| 117. | Auditable, Available and Resilient Private Computation on the Blockchain via MPC Cordi, Christopher and Frank, Michael P and Gabert, Kasimir and Helinski, Carollan and Kao, Ryan C and Kolesnikov, Vladimir and Ladha, Abrahim and Pattengale, Nicholas. 2022. | |
| 118. | Vortex : Building a Lattice-based SNARK scheme with Transparent Setup Alexandre Belling and Azam Soleimanian. 2022. | |
| 119. | FairPoS: Input Fairness in Proof-of-Stake with Adaptive Security James Hsin-yu Chiang and Bernardo David and Ittay Eyal and Tiantian Gong. 2022. | |
| 120. | Formal Model-Driven Analysis of Resilience of GossipSub to Attacks from Misbehaving Peers Ankit Kumar and Max von Hippel and Pete Manolios and Cristina Nita-Rotaru. 2022. | |
| 121. | Censorship-Resilient and Confidential Collateralized Second-Layer Payments Kostiainen, Kari and Gnap, Sven and Karame, Ghassan. 2022. | |
| 122. | Less is more: refinement proofs for probabilistic proofs Jiang, Kunming and Chait-Roth, Devora and DeStefano, Zachary and Walfish, Michael and Wies, Thomas. 2022. | |
| 123. | Executing and Proving over Dirty Ledgers Stefo, Christos and Xiang, Zhuolun and Kokoris-Kogias, Lefteris. 2022. | |
| 124. | Accountable Threshold Signatures with Proactive Refresh Dan Boneh and Aditi Partap and Lior Rotem. 2022. | |
| 125. | $\mu$Cash: Transparent Anonymous Transactions Liam Eagen. 2022. | |
| 126. | Dynamic Pricing for Non-fungible Resources: Designing Multidimensional Blockchain Fee Markets Diamandis, Theo and Evans, Alex and Chitra, Tarun and Angeris, Guillermo. 2022. | |
| 127. | The Arithmetic of Pairing-Based Proof Systems El Housni, Youssef. 2022. | |
| 128. | Ponyta: Foundations of Side-Contract-Resilient Fair Exchange Hao Chung and Elisaweta Masserova and Elaine Shi and Sri AravindaKrishnan Thyagarajan. 2022. | |
| 129. | RapidUp: Multi-domain permutation protocol for lookup tables Ardevol, H\'ector Masip and Mel\'e, Jordi Baylina and Lubarov, Daniel and Mu\~noz-Tapia, Jos\'e L. 2022. | |
| 130. | Musings on the HashGraph Protocol: Its Security and Its Limitations Sridhar, Vinesh and Blum, Erica and Katz, Jonathan. 2022. | |
| 131. | Replicating Portfolios: Constructing Permissionless Derivatives Sterrett, Estelle and Jepsen, Waylon and Kim, Evan. 2022. | |
| 132. | TontineCoin: Survivor-based Proof-of-Stake Pollett, Chris and Austin, Thomas H and Potika, Katerina and Rietz, Justin and Pardeshi, Prashant. 2022. | |
| 133. | How much is the fork? Fast Probability and Profitability Calculation during Temporary Forks Judmayer, Aljosha and Stifter, Nicholas and Schindler, Philipp and Weippel, Edgar. 2022. | |
| 134. | Glimpse: On-Demand, Cross-Chain Communication for Efficient DeFi Applications on Bitcoin-based Blockchains Giulia Scaffino and Lukas Aumayr and Zeta Avarikioti and Matteo Maffei. 2022. | |
| 135. | Proof of history: what is it good for? Shoup, Victor. 2022. | |
| 136. | PriBank: Confidential Blockchain Scaling Using Short Commit-and-Proof NIZK Argument Gj\osteen, Kristian and Raikwar, Mayank and Wu, Shuang. 2022. | |
| 137. | Spats: user-defined confidential assets for the Spark transaction protocol Feickert, Aaron and Jivanyan, Aram. 2022. | |
| 138. | Two More Attacks on Proof-of-Stake GHOST/Ethereum Neu, Joachim and Tas, Ertem Nusret and Tse, David. 2022. | |
| 139. | Eth 2.0 Randomness Ben Edgington. 2022. | |
| 140. | Understanding rollup economics from first principles Monnot, Barnabé. 2022. | |
| 141. | Ping-Pong Swaps Grunspan, Cyril and Perez-Marco, Ricardo. 2022. | |
| 142. | Leveraging Democracy to Optimize Distributed Random Beacons Ranchal-Pedrosa, Alejandro and Gramoli, Vincent. 2022. | |
| 143. | EdMSM: Multi-Scalar-Multiplication for recursive SNARKs and more Youssef EL Housni and Gautam Botrel. 2022. | |
| 144. | Specular: Towards Trust-minimized Blockchain Execution Scalability with EVM-native Fraud Proofs Ye, Zhe and Misra, Ujval and Song, Dawn. 2022. | |
| 145. | A zk-evm specification B\'egassat, Olivier and Belling, Alexandre and Chapuis-Chkaiban, Th\'eodore and Delehelle, Franklin and Kolad, Blazej and Liochon, Nicolas. 2022. | |
| 146. | CRS-Updatable Asymmetric Quasi-Adaptive NIZK Arguments Behzad Abdolmaleki and Daniel Slamanig. 2022. | |
| 147. | FRED: A Frontrunning Resistant Darkpool Chudnovsky, Jacob and Friedlander, Henry and Vasisht, Ajay and Zalcberg, Federico. 2022. | |
| 148. | The Aptos Blockchain: Safe, Scalable, and Upgradeable Web3Infrastructure Aptos Team. 2022. |
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