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| | [[Ajay Manicka]], Andrew Stephan, Sriram Chari, Gemma Mendonsa,<br>Peyton Okubo, John Stolzberg-Schray, Anil Reddy, and [[Marc Riedel]] | | | [[Ajay Manicka]], Andrew Stephan, Sriram Chari, Gemma Mendonsa,<br>Peyton Okubo, John Stolzberg-Schray, Anil Reddy, and [[Marc Riedel]] |
| |- valign="top" | | |- valign="top" |
| | '''to appear''': | | | '''appeared in''': |
| | [https://pubs.rsc.org/en/content/articlepdf/2023/DD/D3DD00083D?page=search Royal Society of Chemistry – Digital Discovery], 2023 | | | [https://pubs.rsc.org/en/content/articlepdf/2023/DD/D3DD00083D?page=search Royal Society of Chemistry – Digital Discovery], Vol. 2, pp. 1436–1451, 2023 |
| |} | | |} |
| | width="70" align="center" | | | | width="70" align="center" | |
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| | '''to appear in''': | | | '''to appear in''': |
| | [https://arxiv.org/abs/2211.15494 PLOS One], 2023 | | | [https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0292228 PLOS One], Vol. 18, No. 10, 2023 |
| |} | | |} |
| | width="70" align="center" | | | | width="70" align="center" | |
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| | '''to appear in''': | | | '''appeared''': |
| | [https://www.springer.com/journal/11047 Natural Computing], 2023 | | | [https://www.springer.com/journal/11047 Natural Computing], 2023 |
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| |- valign="top" | | |- valign="top" |
| | '''appeared as''': | | | '''appeared as''': |
| | '''[http://pubs.acs.org/journal/asbcd6 ACS Synthetic Biology], Vol. 6, No. 1, pp. 76–83, 2017''' | | | [http://pubs.acs.org/journal/asbcd6 ACS Synthetic Biology], Vol. 6, No. 1, pp. 76–83, 2017 |
| |- valign="top" | | |- valign="top" |
| | '''presented at''': | | | '''presented at''': |
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| |- valign="top" | | |- valign="top" |
| | width="100" | '''title''': | | | width="100" | '''title''': |
| | width="500" | [[Media:Solanki Riedel Cornette Udell Vasmatzis Evasive Spike Variants Elucidate the Preservation of T cell Immune Response to the SARS-CoV-2 Omicron Variant.pdf|Evasive Spike Variants Elucidate the Preservation of T cell Immune Response to the SARS-CoV-2 Omicron Variant]] | | | width="500" | [https://mriedel.ece.umn.edu/wiki/images/2/2d/Atkins_Solanki_Vasmatzis_Cornette_Riedel_Geographically_Biased_Composition_of_NetMHCpan_Training_Datasets_and_Evaluation_of_MHC-Peptide_Binding_Prediction_Accuracy_on_Novel_Alleles.pdf Geographically Biased Composition of NetMHCpan Training Datasets and Evaluation of MHC-Peptide] |
| | |- valign="top" |
| | | '''authors''': |
| | | Thomas Atkins, [[Arnav Solanki]], [https://www.mayo.edu/research/faculty/vasmatzis-george-ph-d/bio-00027811 George Vasmatzis], [https://orion.math.iastate.edu/cornette/ James Cornette], and [[Marc Riedel]] |
| | |- valign="top" |
| | | '''appeared in''': |
| | | [https://www.frontiersin.org/journals/immunology Frontiers in Immunology], Vol. 14, 2023 |
| | |} |
| | | align="center" width="70" | |
| | <span class="plainlinks"> |
| | [https://www.frontiersin.org/articles/10.3389/fimmu.2023.1288105/full http://mriedel.ece.umn.edu/wiki/images/0/04/Pdf.jpg]</span> |
| | <br> |
| | [https://www.frontiersin.org/articles/10.3389/fimmu.2023.1288105/full Paper] |
| | |} |
| | |
| | {| |
| | | |
| | {| style="background:#F0E68C" |
| | |- valign="top" |
| | | width="100" | '''title''': |
| | | width="500" | [[Media:Evasive_Spike_Variants_Elucidate_the_Preservation_of_T_Cell_Immune_Response_to_the_SARS-CoV-2_Omicron_Variant.pdf|Evasive Spike Variants Elucidate the Preservation of T cell Immune Response to the SARS-CoV-2 Omicron Variant]] |
| |- valign="top" | | |- valign="top" |
| | '''authors''': | | | '''authors''': |
| | [[Arnav Solanki]], [[Marc Riedel]], [https://orion.math.iastate.edu/cornette/ James Cornette], [[Julia Udell]], and [https://www.mayo.edu/research/faculty/vasmatzis-george-ph-d/bio-00027811 George Vasmatzis] | | | [[Arnav Solanki]], [[Marc Riedel]], [https://orion.math.iastate.edu/cornette/ James Cornette], [[Julia Udell]], and [https://www.mayo.edu/research/faculty/vasmatzis-george-ph-d/bio-00027811 George Vasmatzis] |
| |- valign="top" | | |- valign="top" |
| | '''under review''': | | | '''appeared in''': |
| | [https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=8857 IEEE/ACM Trans. on Computational Biology and Bioinformatics], 2023 | | | [https://ieeexplore.ieee.org/document/10457533 IEEE/ACM Trans. on Computational Biology and Bioinformatics], pp. 1–11, March, 2024 |
| |} | | |} |
| | width="70" align="center" | | | | width="70" align="center" | |
| <span class="plainlinks"> | | <span class="plainlinks"> |
| [https://mriedel.ece.umn.edu/wiki/images/1/17/Solanki_Riedel_Cornette_Udell_Vasmatzis_Evasive_Spike_Variants_Elucidate_the_Preservation_of_T_cell_Immune_Response_to_the_SARS-CoV-2_Omicron_Variant.pdf http://mriedel.ece.umn.edu/wiki/images/0/04/Pdf.jpg]</span> | | [https://mriedel.ece.umn.edu/wiki/images/1/12/Evasive_Spike_Variants_Elucidate_the_Preservation_of_T_Cell_Immune_Response_to_the_SARS-CoV-2_Omicron_Variant.pdf http://mriedel.ece.umn.edu/wiki/images/0/04/Pdf.jpg]</span> |
| <br> | | <br> |
| [[Media:Solanki_Riedel_Cornette_Udell_Vasmatzis_Evasive_Spike_Variants_Elucidate_the_Preservation_of_T_cell_Immune_Response_to_the_SARS-CoV-2_Omicron_Variant.pdf | Paper]] | | [[Media:Evasive_Spike_Variants_Elucidate_the_Preservation_of_T_Cell_Immune_Response_to_the_SARS-CoV-2_Omicron_Variant.pdf | Paper]] |
| |} | | |} |
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| | '''presented at''': | | | '''presented at''': |
| | [http://ismco.net/ 3rd International Symposium on Mathematical and Computational Oncology], 2021 | | | [http://ismco.net/International Symposium on Mathematical and Computational Oncology], 2021 |
| |} | | |} |
| | width="70" align="center" | | | | width="70" align="center" | |
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| | [[Yadu Kiran]] and [[Marc Riedel]] | | | [[Yadu Kiran]] and [[Marc Riedel]] |
| |- valign="top" | | |- valign="top" |
| | '''under review''':
| | | '''presented at''': |
| | [https://www.frontiersin.org/journals/nanotechnology Frontiers in Nanotechnology], 2023
| |
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| |
| | ''' presented at''': | |
| | [https://dl.acm.org/doi/proceedings/10.1145/3526241 IEEE/ACM Great Lakes Symposium on VLSI], 2022 | | | [https://dl.acm.org/doi/proceedings/10.1145/3526241 IEEE/ACM Great Lakes Symposium on VLSI], 2022 |
| |} | | |} |
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| <span class="plainlinks"> | | <span class="plainlinks"> |
| [https://mriedel.ece.umn.edu/wiki/images/3/37/Kiran_Riedel_A_Scalable_Approach_to_Performing_Multiplication_and_Matrix_Dot-Products_in_Unary.pdf http://mriedel.ece.umn.edu/wiki/images/0/04/Pdf.jpg]</span> | | [https://mriedel.ece.umn.edu/wiki/images/3/37/Kiran_Riedel_A_Scalable_Approach_to_Performing_Multiplication_and_Matrix_Dot-Products_in_Unary.pdf http://mriedel.ece.umn.edu/wiki/images/0/04/Pdf.jpg]</span> |
| <br>
| | [https://mriedel.ece.umn.edu/wiki/images/3/37/Kiran_Riedel_A_Scalable_Approach_to_Performing_Multiplication_and_Matrix_Dot-Products_in_Unary.pdf Paper] |
| [[Media:Kiran_Riedel_A_Scalable_Approach_to_Performing_Multiplication_and_Matrix_Dot-Products_in_Unary.pdf | Paper]] | | | width="70" align="center" | |
| |[[File:Powerpoint-icon.png|center|thumb|70x70px|[[File:Slides.pptx|thumb|Slides]]]] | | <span class="plainlinks">[https://mriedel.ece.umn.edu/wiki/images/b/ba/Kiran_Riedel_A_Scalable_Deterministic_Approach_to_Stochastic_Computing.pptx http://mriedel.ece.umn.edu/wiki/images/3/36/Ppt.jpg]</span> |
| | <br>[https://mriedel.ece.umn.edu/wiki/images/b/ba/Kiran_Riedel_A_Scalable_Deterministic_Approach_to_Stochastic_Computing.pptx Slides] |
| |} | | |} |
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| | [https://nanospin.umn.edu/people/brandon-zink Brandon Zink], [[Marc Riedel]], [https://www.ece.umn.edu/~ukarpuzc/Karpuzcu.html Ulya Karpuzcu] and [https://nanospin.umn.edu/people/jian-ping-wang Jian-Ping Wang] | | | [https://nanospin.umn.edu/people/brandon-zink Brandon Zink], [[Marc Riedel]], [https://www.ece.umn.edu/~ukarpuzc/Karpuzcu.html Ulya Karpuzcu] and [https://nanospin.umn.edu/people/jian-ping-wang Jian-Ping Wang] |
| |- valign="top" | | |- valign="top" |
| | '''ro appear in''': | | | '''appeared in''': |
| | [https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=20 IEEE Transactions on Magnetics] | | | [https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=20 IEEE Transactions on Magnetics], 2023 |
| |- valign="top" | | |- valign="top" |
| | '''presented at''': | | | '''presented at''': |
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| <br> | | <br> |
| [[Image:Sponsors.jpg|center|500px]] | | [[Image:Sponsors.jpg|center|500px]] |
| | |} |
| | |
| | == Patents == |
| | |
| | {| |
| | | |
| | {| class="sortable" style="background:#F0E68C" |
| | |- |
| | | 1. |
| | | width="600" | |
| | "[https://patentimages.storage.googleapis.com/14/1a/f4/2d0f33a9989b1c/US11018689.pdf Parallel Computing using Stochastic Circuits and Deterministic Shuffling Networks]"<br>Soheil Mohajer, Zhiheng Wang,Kiarash Bazargan, [[Marc Riedel]],<br>David J. Lilja, and Sayed Abdolrasoul Faraji<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/14/1a/f4/2d0f33a9989b1c/US11018689.pdf 11,018,689 B2], 2021 |
| | |- |
| | |2. |
| | | |
| | "[https://patentimages.storage.googleapis.com/37/d1/3c/fff3c490a66909/US20200401376A1.pdf Low Discrepancy Deterministic Bit-Stream Processing Using Sobol Sequences]"<br> [[M. Hassan Najafi]], David J. Lilja, [[Marc Riedel]], Kia Bazargan, Sayed A. Faraji, and Bengzhe Li<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/37/d1/3c/fff3c490a66909/US20200401376A1.pdf 20,200,401,376 A1], 2021 |
| | |- |
| | |3. |
| | | |
| | "[https://patentimages.storage.googleapis.com/f2/27/1a/81e865f0f8ffbf/US20200143234A1.pdf Sorting Networks using Unary Processing]" [[M. Hassan Najafi]], David J. Lilja, |
| | |
| | [[Marc Riedel]], and Kia Bazargan<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/f2/27/1a/81e865f0f8ffbf/US20200143234A1.pdf 20,200,143,234] A1, 2020 |
| | |- |
| | |4. |
| | | |
| | "[https://patentimages.storage.googleapis.com/4b/ad/2c/46c83fbdede4b1/US10520975.pdf Polysynchronous Stochastic Circuits]"<br>David J. Lilja, [[M. Hassan Najafi]], [[Marc Riedel]], and Kiarash Bazargan<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/4b/ad/2c/46c83fbdede4b1/US10520975.pdf 10,520,975 B2], 2019 |
| | |- |
| | |5. |
| | | |
| | "[https://patentimages.storage.googleapis.com/46/60/b8/0301c0e60e79bf/US10740686.pdf Stochastic Computation using Pulse-Width Modulated Signals]" [[M. Hassan Najafi]],<br>S Jamali-Zavareh, D. J. Lilja, [[Marc Riedel]], K. Bazargan, and R. Harjani<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/46/60/b8/0301c0e60e79bf/US10740686.pdf 10,740,686] B2, 2018 |
| | |- |
| | |6. |
| | | |
| | "[https://patentimages.storage.googleapis.com/51/e3/63/6ea37887bdc606/US10063255.pdf Stochastic Computing on Deterministic Bit Streams]"<br>[[Devon Jenson]] and [[Marc Riedel]]<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/51/e3/63/6ea37887bdc606/US10063255.pdf 10,063,255,] 2018 |
| | |- |
| | |7. |
| | | |
| | "[https://patentimages.storage.googleapis.com/32/1f/53/160f07c0044a2d/US7249341.pdf Synthesis of Cyclic Combinational Circuits]"<br>[[Marc Riedel]] and Jehoshua Bruck<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/32/1f/53/160f07c0044a2d/US7249341.pdf 7,249,341], 2007 |
| | |- |
| | |8. |
| | | |
| | "[https://patentimages.storage.googleapis.com/20/16/3e/bc3d27149d1d0c/US6128277.pdf A Reliable Array of Distributed Computing Nodes]"<br>Vincent Bohossian, Charles Fan, Paul LeMahieu, [[Marc Riedel]], Lihao Xu, and Jehoshua Bruck<br>U.S. Patent No. [https://patentimages.storage.googleapis.com/20/16/3e/bc3d27149d1d0c/US6128277.pdf 6,128,277], 2000 |
| | |} |
| |} | | |} |