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1 | title | reference | year | domain | task_name | task_id | submission_id | num_qubits | num_gates | achieved | subsetName |
|---|---|---|---|---|---|---|---|---|---|---|---|
2 | Quantum supremacy using a programmable superconducting processor | Nature volume 574, pages 505–510 (2019) | 2019 | Quantum supremacy | Random circuit sampling | 47 | 695 | 53 | 1543 | true | Classically intractable |
3 | Strong quantum computational advantage using a superconducting quantum processor | Phys. Rev. Lett. 127, 180501 (2021-10-25) | 2021 | Quantum supremacy | Random circuit sampling | 47 | 69 | 56 | 1590 | true | Classically intractable |
4 | Evidence for the utility of quantum computing before fault tolerance | Nature volume 618, pages 500–505 (2023) | 2023 | Quantum supremacy | 2D transverse-field Ising model | 195 | 653 | 127 | 14400 | true | Classically intractable |
5 | Quantinuum H-Series quantum computer accelerates through 3 more performance records for quantum volume: 2^17, 2^18, and 2^19 | Quantinuum blog post (2023) | 2023 | Quantum supremacy | Quantum volume | 34 | 642 | 19 | 532 | true | Other |
6 | How to compute a 256-bit elliptic curve private key with only 50 million Toffoli gates | arXiv:2306.08585 | 2023 | Cryptography | ECDLP | 4 | 696 | 1152 | 50000000 | false | Both |
7 | A Threshold for Quantum Advantage in Derivative Pricing | arXiv:2012.03819 | 2020 | Finance | Derivative pricing | 0 | 697 | 8000 | 12000000000 | false | Quantum advantage |
8 | Towards Quantum Advantage in Financial Market Risk using Quantum Gradient Algorithms | arXiv:2111.12509 | 2021 | Finance | Derivative pricing | 0 | 698 | 12000 | 12000000000 | false | Quantum advantage |
9 | Using Q# to estimate resources needed for quantum advantage in derivative pricing | https://cloudblogs.microsoft.com/quantum/2022/09/15/using-q-to-estimate-resources-needed-for-quantum-advantage-in-derivative-pricing/ | 2022 | Finance | Derivative pricing | 0 | 699 | false | Quantum advantage | ||
10 | Derivative Pricing using Quantum Signal Processing | arXiv:2307.14310 | 2023 | Finance | Derivative pricing | 0 | 700 | 4700 | 1000000000 | false | Quantum advantage |
11 | Assessing requirements to scale to practical quantum advantage | arXiv:2211.07629 | 2022 | Physics simulation | Quantum dynamics | 0 | 701 | 230 | 103000000000 | false | Both |
12 | Assessing requirements to scale to practical quantum advantage | arXiv:2211.07629 | 2022 | Physics simulation | Quantum chemistry | 0 | 701 | 2740 | 33300000000000000 | false | Both |
13 | Assessing requirements to scale to practical quantum advantage | arXiv:2211.07629 | 2022 | Cryptography | Factoring | 0 | 701 | 25481 | 28600000000000000 | false | Both |
14 | Reliably assessing the electronic structure of cytochrome P450 on today's classical computers and tomorrow's quantum computers | arXiv:2202.01244 | 2022 | Physics simulation | Quantum chemistry | 0 | 726 | 1434 | 7800000000 | false | Both |
15 | Reducing the Number of Qubits in Quantum Factoring | cryptoeprint:2024/222 | 2024 | Cryptography | Factoring | 0 | 762 | 1700 | 68719476736 | false | Both |
16 | Analyzing Prospects for Quantum Advantage in Topological Data Analysis | arXiv:2209.13581 | 2022 | Machine learning | Topological data analysis | 0 | 701 | 100 | 100000000 | false | Classically intractable |
17 | Applications and resource estimates for open system simulation on a quantum computer | arXiv:2406.06281 | 2024 | Physics simulation | Quantum dynamics | 0 | 774 | 3000 | 270000000000000 | false | Both |
18 | Quantifying fault tolerant simulation of strongly correlated systems using the Fermi-Hubbard model | arXiv:2406.06511 | 2024 | Physics simulation | Quantum chemistry | 0 | 773 | 400 | 3000000 | false | Both |
19 | Prospects for NMR Spectral Prediction on Fault-Tolerant Quantum Computers | arXiv:2406.09340 | 2024 | Physics simulation | Quantum chemistry | 0 | 772 | 256 | 579000000000 | false | Both |
20 | QREChem: Quantum Resource Estimation Software for Chemistry Applications | arXiv:2404.16351 | 2024 | Physics simulation | Quantum chemistry | 0 | 791 | 300000 | 1000000000000000 | false | Both |
21 | The electronic complexity of the ground-state of the FeMo cofactor of nitrogenase as relevant to quantum simulations | doi:10.1063/1.5063376 | 2024 | Physics simulation | Quantum chemistry | 228 | 801 | 1972 | 14000000000000 | false | Both |
22 | Quantum-Centric Algorithm for Sample-Based Krylov Diagonalization | arXiv:2501.09702 | 2025 | Physics simulation | Krylov Diagonalization Anderson Model | 47 | 827 | 85 | 6000 | true | Other |
23 | Faster quantum chemistry simulations on a quantum computer with improved tensor factorization and active volume compilation | arXiv:2501.06165 | 2025 | Physics simulation | Quantum chemisty | 228 | 826 | 999 | 1700000000 | false | Both |
24 | Quantum resource estimates for computing binary elliptic curve discrete logarithms | arXiv:2503.02984 | 2025 | Cryptography | ECC-163 | 228 | 829 | 2125 | 1370000 | false | Both |
25 | Quantum resource estimates for computing binary elliptic curve discrete logarithms | arXiv:2503.02984 | 2025 | Cryptography | ECC-233 | 228 | 829 | 3035 | 3520000 | false | Both |