Publications and Presentations
From The Emerging Circuits and Computation Group at ITU
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Listed below are the papers, '''first authored''' by our group members as an indication that the related research is mainly conducted in our group, and the presentations. Research topics are ordered from newest to oldest as well as by considering their importance. Under each topic, papers are ordered from newest to oldest. All materials are subject to copyrights. | Listed below are the papers, '''first authored''' by our group members as an indication that the related research is mainly conducted in our group, and the presentations. Research topics are ordered from newest to oldest as well as by considering their importance. Under each topic, papers are ordered from newest to oldest. All materials are subject to copyrights. | ||
<div style="float:center; font-size:110%; font-weight:bold; clear:both; padding:0; margin:0.0em;">__TOC__</div> | <div style="float:center; font-size:110%; font-weight:bold; clear:both; padding:0; margin:0.0em;">__TOC__</div> | ||
− | == Computing with | + | |
+ | == Computing with Switching Lattices == | ||
=== Technology Development === | === Technology Development === | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Akkan_EtAl_H_and_Square_Lattice_Technology_Development.pdf | Technology Development and Modeling of Switching Lattices Using Square and H Shaped Four-Terminal Switches]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | width="550"| Nihat Akkan, Serzat Safaltin, Levent Aksoy, Ismail Cevik, Herman Sedef, Csaba Andras Moritz, and [[Mustafa Altun]] | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6245516 IEEE Transactions on Emerging Topics in Computing], Vol. 10, Issue 1, pp. 351–360, 2022. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/6/69/Akkan_EtAl_H_and_Square_Lattice_Technology_Development.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Akkan_EtAl_H_and_Square_Lattice_Technology_Development.pdf | Paper]] | ||
+ | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 26: | Line 47: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link=]] | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/1/1c/Cevik_Aksoy_Altun_CMOS_Implementation_of_Switching_Lattices.pptx]] |
</span> | </span> | ||
− | <br> Slides | + | <br> [https://www.ecc.itu.edu.tr/images/1/1c/Cevik_Aksoy_Altun_CMOS_Implementation_of_Switching_Lattices.pptx Slides] |
|} | |} | ||
Line 53: | Line 74: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/7/71/Safaltin_EtAl_Technology_Development_for_Switching_Lattices.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/7/71/Safaltin_EtAl_Technology_Development_for_Switching_Lattices.pptx Slides] |
|} | |} | ||
− | === | + | === Logic Synthesis and Fault/Variation Tolerance === |
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 65: | Line 86: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Aksoy_EtAl_Logic_Synthesis_for_Switching_Lattices_under_Delay_Constraint.pdf | Realization of Logic Functions Using Switching Lattices Under a Delay Constraint]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Levent Aksoy, Nihat Akkan, Herman Sedef, and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | | ''' | + | | '''appeared in''': |
− | | [http:// | + | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=43 IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems], Vol. 40, Issue 10, pp. 2036–2048, 2021. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/5/55/Aksoy_EtAl_Logic_Synthesis_for_Switching_Lattices_under_Delay_Constraint.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Aksoy_EtAl_Logic_Synthesis_for_Switching_Lattices_under_Delay_Constraint.pdf | Paper]] |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
|} | |} | ||
Line 91: | Line 106: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Aksoy_Altun_Lattice_Synthesis_for_Complex_Functions.pdf | A Novel Method for the Realization of Complex Logic Functions Using Switching Lattices]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Levent Aksoy and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | + | | [http://iscas2020.org/ IEEE International Symposium on Circuits and Systems (ISCAS)], Seville, Spain, 2020. | |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/7/72/Aksoy_Altun_Lattice_Synthesis_for_Complex_Functions.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Aksoy_Altun_Lattice_Synthesis_for_Complex_Functions.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File: | + | [[File:MP4.jpg|60px|link=https://www.ecc.itu.edu.tr/images/7/7c/Aksoy_Altun_Lattice_Synthesis_for_Complex_Functions.mp4]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/7/7c/Aksoy_Altun_Lattice_Synthesis_for_Complex_Functions.mp4 Slides] |
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Aksoy_Altun_Realizations_with_Switching_Lattices.pdf | Novel Methods for Efficient Realization of Logic Functions Using Switching Lattices]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Levent Aksoy and [[Mustafa Altun]] | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=12 IEEE Transactions on Computers], Vol. 69, Issue 3, pp. 427–440, 2020. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/e/e0/Aksoy_Altun_Realizations_with_Switching_Lattices.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Aksoy_Altun_Realizations_with_Switching_Lattices.pdf | Paper]] | ||
|} | |} | ||
Line 118: | Line 153: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media: Aksoy_Altun_SAT_based_Synthesis_of_Switching_Lattices.pdf| A Satisfiability-Based Approximate Algorithm for Logic Synthesis Using Switching Lattices]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Levent Aksoy and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | | width="550"| [http://www.date-conference.com/ Design, Automation and Test in Europe (DATE)], | + | | width="550"| [http://www.date-conference.com/ Design, Automation and Test in Europe (DATE)], Florence, Italy, 2019. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/f/fe/Aksoy_Altun_SAT_based_Synthesis_of_Switching_Lattices.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Aksoy_Altun_SAT_based_Synthesis_of_Switching_Lattices.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/5/54/Aksoy_Altun_SAT_based_Synthesis_of_Switching_Lattices.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/5/54/Aksoy_Altun_SAT_based_Synthesis_of_Switching_Lattices.pptx Slides] |
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
− | |||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Morgul_Altun_Algorithms_for_Switching_Lattices.pdf | Optimal and Heuristic Algorithms to Synthesize Lattices of Four-Terminal Switches]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | width=" | + | | Ceylan Morgul and [[Mustafa Altun]] |
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | width="624" | [http://www.journals.elsevier.com/integration Integration, the VLSI Journal], Vol. 64, pp. 60–70, 2019. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/5/58/Morgul_Altun_Algorithms_for_Switching_Lattices.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Morgul_Altun_Algorithms_for_Switching_Lattices.pdf | Paper]] | ||
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
|- valign=top | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Altun_Riedel_Logic_Synthesis_for_Switching_Lattices.pdf | Logic Synthesis for Switching Lattices]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | [[Mustafa Altun]] and Marc Riedel | ||
+ | |- valign="top" | ||
| '''appeared in''': | | '''appeared in''': | ||
− | + | | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=12 IEEE Transactions on Computers], Vol. 61, Issue 11, pp. 1588–1600, 2012. | |
+ | <!-- |- valign="top" | ||
+ | | '''presented at''': | ||
+ | | width="624"| [http://fias.uni-frankfurt.de International Conference on Computational Modelling of Nanostructured Materials (ICCMNM)-FIAS], Frankfurt, Germany, 2013. --> | ||
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/c/ca/Altun_Riedel_Logic_Synthesis_for_Switching_Lattices.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_Riedel_Logic_Synthesis_for_Switching_Lattices.pdf | Paper]] |
+ | |} | ||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Altun_Riedel_Synthesizing_Logic_with_Percolation_in_Nanoscale_Lattices.pdf | Synthesizing Logic with Percolation in Nanoscale Lattices]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | [[Mustafa Altun]] and Marc Riedel | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [http://www.igi-global.com/Bookstore/TitleDetails.aspx?TitleId=1117&DetailsType=Description/ International Journal of Nanotechnology and Molecular Computation], Vol. 3, Issue 2, pp. 12–30, 2011. | ||
+ | |} | ||
+ | |||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/3/3b/Altun_Riedel_Synthesizing_Logic_with_Percolation_in_Nanoscale_Lattices.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Altun_Riedel_Synthesizing_Logic_with_Percolation_in_Nanoscale_Lattices.pdf | Paper]] | ||
|} | |} | ||
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|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Altun_Riedel_Lattice-Based_Computation_of_Boolean_Functions.pdf | Lattice Based Computation of Boolean Functions]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | [[Mustafa Altun]] | + | | [[Mustafa Altun]] and Marc Riedel |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | [http://www.dac.com IEEE/ACM Design Automation Conference (DAC)], Anaheim, USA, 2010. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/7/7b/Altun_Riedel_Lattice-Based_Computation_of_Boolean_Functions.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_Riedel_Lattice-Based_Computation_of_Boolean_Functions.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/2/28/Altun_Riedel_Lattice-Based_Computation_of_Boolean_Functions.ppt]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/2/28/Altun_Riedel_Lattice-Based_Computation_of_Boolean_Functions.ppt Slides] |
|} | |} | ||
Line 193: | Line 270: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Altun_Riedel_Neuhauser_Nanoscale_Digital_Computation_Through_Percolation.pdf | Nanoscale Digital Computation Through Percolation]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | [[Mustafa Altun]], Marc Riedel, and [http://www.cbs.umn.edu/eeb/contacts/claudia-neuhauser/ Claudia Neuhauser] |
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http:// | + | | [http://www.dac.com IEEE/ACM Design Automation Conference (DAC)], San Francisco, USA, 2009. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/0/0c/Altun_Riedel_Neuhauser_Nanoscale_Digital_Computation_Through_Percolation.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_Riedel_Neuhauser_Nanoscale_Digital_Computation_Through_Percolation.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File: | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/f/fe/Altun_Riedel_Neuhauser_Nanoscale_Digital_Computation_Through_Percolation.ppt]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/f/fe/Altun_Riedel_Neuhauser_Nanoscale_Digital_Computation_Through_Percolation.ppt Slides] |
|} | |} | ||
+ | |||
+ | == Energy Efficient ANN Hardware Implementation == | ||
+ | |||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Nojehdeh_Altun_Approximate_ANN_2023.pdf | Energy Efficient Hardware Implementation of Fully-Connected Artificial Neural Networks Using Approximate Arithmetic Blocks]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Mohammadreza Nojehdeh and [[Mustafa Altun]] | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | width="624" | [https://www.springer.com/journal/34 Circuits, Systems, and Signal Processing], Vol. 42, Issue 9, pp. 5428–5452, 2023 | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/1/16/Nojehdeh_Altun_Approximate_ANN_2023.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Nojehdeh_Altun_Approximate_ANN_2023.pdf | Paper]] | ||
+ | |} | ||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Karadeniz_Altun_TALIPOT.pdf | TALIPOT: Energy Efficient DNN Booster Employing Hybrid Bit Parallel-Serial Processing in MSB-First Fashion]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Burak Karadeniz and [[Mustafa Altun]] |
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=43 IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems], Vol. 41, Issue 8, pp. 2714–2727, 2022 | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/0/01/Karadeniz_Altun_TALIPOT.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Karadeniz_Altun_TALIPOT.pdf | Paper]] | ||
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="550"|[[Media:Nojehdeh_Parvin_Altun_ANN_Implementation_with_MAC.pdf | Efficient Hardware Implementation of Convolution Layers Using Multiply-Accumulate Blocks]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Mohammadreza Nojehdeh, Sajjad Parvin, and [[Mustafa Altun]] | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi21/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Tampa, USA, 2021. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/4/41/Nojehdeh_Parvin_Altun_ANN_Implementation_with_MAC.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Nojehdeh_Parvin_Altun_ANN_Implementation_with_MAC.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/b/bf/Nojehdeh_Parvin_Altun_ANN_Implementation_with_MAC.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/b/bf/Nojehdeh_Parvin_Altun_ANN_Implementation_with_MAC.pptx Slides] |
|} | |} | ||
− | |||
− | |||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 250: | Line 367: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Parvin_Altun_Hardware_Aware_ANN_Training.pdf | A Study on Hardware-Aware Training Techniques for Feedforward Artificial Neural Networks]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Sajjad Parvin and [[Mustafa Altun]] |
− | |- valign= | + | |- valign=top |
− | | ''' | + | | '''presented at''': |
− | + | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi21/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Tampa, USA, 2021. | |
|} | |} | ||
+ | |||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/9/95/Parvin_Altun_Hardware_Aware_ANN_Training.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Parvin_Altun_Hardware_Aware_ANN_Training.pdf | Paper]] |
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/c/cb/Parvin_Altun_Hardware_Aware_ANN_Training.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/c/cb/Parvin_Altun_Hardware_Aware_ANN_Training.pptx Slides] | ||
|} | |} | ||
Line 270: | Line 394: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Aksoy_Parvin_Nojehdeh_Altun_Time_Multiplexed_ANN_Implementation.pdf | Efficient Time-Multiplexed Realization of Feedforward Artificial Neural Networks]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Levent Aksoy, Sajjad Parvin, Mohammadreza Nojehdeh, and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | | ''' | + | | '''presented at''': |
− | + | | [http://iscas2020.org/ IEEE International Symposium on Circuits and Systems (ISCAS)], Seville, Spain, 2020. | |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/e/eb/Aksoy_Parvin_Nojehdeh_Altun_Time_Multiplexed_ANN_Implementation.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Aksoy_Parvin_Nojehdeh_Altun_Time_Multiplexed_ANN_Implementation.pdf | Paper]] |
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/3/3a/Aksoy_Parvin_Nojehdeh_Altun_Time_Multiplexed_ANN_Implementation.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/3/3a/Aksoy_Parvin_Nojehdeh_Altun_Time_Multiplexed_ANN_Implementation.pptx Slides] | ||
|} | |} | ||
+ | |||
+ | == Computing with Nano-Crossbar Arrays == | ||
+ | |||
+ | === Comprehensive Performance Optimization=== | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Morgul_EtAl_Circuit_Design_Steps_for_Nano_Crossbar_Arrays.pdf | Circuit Design Steps for Nano-Crossbar Arrays: Area-Delay-Power Optimization with Fault Tolerance]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | width="550"| Ceylan Morgul, Luca Frontini, Onur Tunali, Lorena Anghel, Valentina Ciriani, Ioana Vatajelu, Csaba Moritz, Mircea Stan, Dan Alexandrescu, and [[Mustafa Altun]] |
− | |- valign= | + | |- valign=top |
| '''appeared in''': | | '''appeared in''': | ||
− | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber= | + | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=7729 IEEE Transactions on Nanotechnology], Vol. 20, pp. 39–53 2021. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/d/db/Morgul_EtAl_Circuit_Design_Steps_for_Nano_Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Morgul_EtAl_Circuit_Design_Steps_for_Nano_Crossbar_Arrays.pdf | Paper]] |
+ | |||
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
− | |||
| | | | ||
− | {| | + | {| |
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Altun_EtAl_NANOxCOMP_Lessons_Learned_Future_Directions.pdf | Nano-Crossbar based Computing: Lessons Learned and Future Directions]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | [[Mustafa Altun]], Ismail Cevik, Ahmet Erten, Osman Eksik, Mircea Stan, and Csaba Andras Moritz |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | + | | [http://www.date-conference.com/ Design, Automation, and Test in Europe (DATE)], Grenoble, France, 2020. | |
|} | |} | ||
− | | align=center width="70" | | + | | align=center width="70" | |
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/0/04/Altun_EtAl_NANOxCOMP_Lessons_Learned_Future_Directions.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_EtAl_NANOxCOMP_Lessons_Learned_Future_Directions.pdf | Paper]] |
− | | align="center" width="70" | | + | | align="center" width="70" | |
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/9/9f/Altun_EtAl_NANOxCOMP_Lessons_Learned_Future_Directions.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/9/9f/Altun_EtAl_NANOxCOMP_Lessons_Learned_Future_Directions.pptx Slides] |
|} | |} | ||
Line 337: | Line 472: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media: Morgul_EtAl_Integrated_Synthesis_Methodology for_Crossbar_Arrays.pdf | Integrated Synthesis Methodology for Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | Onur Tunali and [[Mustafa Altun]] | + | | width="550"| Ceylan Morgul, Luca Frontini, Onur Tunali, Ioana Vatajelu, Valentina Ciriani, Lorena Anghel, Csaba Moritz, Mircea Stan, Dan Alexandrescu, and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | | ''' | + | | '''presented at''': |
− | | width=" | + | | width="550"|[http://www.nanoarch.org/ IEEE/ACM International Symposium on Nanoscale Architectures (NANOARCH)], Athens, Greece, 2018. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/b/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/b/b1/Morgul_EtAl_Integrated_Synthesis_Methodology_for_Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Morgul_EtAl_Integrated_Synthesis_Methodology for_Crossbar_Arrays.pdf | Paper]] |
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/b/bd/Morgul_EtAl_Integrated_Synthesis_Methodology_for_Crossbar_Arrays.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/b/bd/Morgul_EtAl_Integrated_Synthesis_Methodology_for_Crossbar_Arrays.pptx Slides] | ||
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
| | | | ||
− | {| | + | {| |
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Tunali_Altun_Logic_Synthesis_and_Defect_Tolerance_for_Memristive_Crossbars.pdf| Logic Synthesis and Defect Tolerance for Memristive Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
| Onur Tunali and [[Mustafa Altun]] | | Onur Tunali and [[Mustafa Altun]] | ||
|- valign="top" | |- valign="top" | ||
+ | | '''presented at''': | ||
+ | | width="550"| [http://www.date-conference.com/ Design, Automation and Test in Europe (DATE)], Dresden, Germany, 2018. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/5/57/Tunali_Altun_Logic_Synthesis_and_Defect_Tolerance_for_Memristive_Crossbars.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Tunali_Altun_Logic_Synthesis_and_Defect_Tolerance_for_Memristive_Crossbars.pdf | Paper]] | ||
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/b/b8/Tunali_Altun_Logic_Synthesis_and_Defect_Tolerance_for_Memristive_Crossbars.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/b/b8/Tunali_Altun_Logic_Synthesis_and_Defect_Tolerance_for_Memristive_Crossbars.pptx Slides] | ||
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="550"|[[Media:Altun_EtAl_Synthesis_and_Testing_for_Switching_Nano_Crossbar_Arrays.pdf | Logic Synthesis and Testing Techniques for Switching Nano-Crossbar Arrays]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | width="550"| Dan Alexandrescu, [[Mustafa Altun]], Lorena Anghel, Anna Bernasconi, Valentina Ciriani, Luca Frontini, and Mehdi Tahoori | ||
+ | |- valign=top | ||
| '''appeared in''': | | '''appeared in''': | ||
− | | width="624" | [http:// | + | | width="624" | [http://www.journals.elsevier.com/microprocessors-and-microsystems/ Microprocessors and Microsystems], Vol. 54, pp. 14–25, 2017. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/0/0a/Altun_EtAl_Synthesis_and_Testing_for_Switching_Nano_Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_EtAl_Synthesis_and_Testing_for_Switching_Nano_Crossbar_Arrays.pdf | Paper]] |
+ | |||
|} | |} | ||
Line 377: | Line 547: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Altun_Ciriani_Tahoori_Computing_with_Nano-Crossbar_Arrays.pdf | Computing with Nano-Crossbar Arrays: Logic Synthesis and Fault Tolerance]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | [[Mustafa Altun]], Valentina Ciriani, and Mehdi Tahoori |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | + | | [http://www.date-conference.com/ Design, Automation and Test in Europe (DATE)], Lausanne, Switzerland, 2017. | |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/0/09/Altun_Ciriani_Tahoori_Computing_with_Nano-Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_Ciriani_Tahoori_Computing_with_Nano-Crossbar_Arrays.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/2/28/Altun_Ciriani_Tahoori_Computing_with_Nano-Crossbar_Arrays.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/2/28/Altun_Ciriani_Tahoori_Computing_with_Nano-Crossbar_Arrays.pptx Slides] |
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Altun_EtAl_Synthesis_and_Performance_Optimization_of_a_Switching_Nano-crossbar_Computer.pdf | Synthesis and Performance Optimization of a Switching Nano-crossbar Computer]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | [[Mustafa Altun]] and | + | | width="550"| Dan Alexandrescu, [[Mustafa Altun]], Lorena Anghel, Anna Bernasconi, Valentina Ciriani, and Mehdi Tahoori |
− | |- valign= | + | |- valign=top |
− | | ''' | + | | '''presented at''': |
− | | [http:// | + | | [http://dsd-seaa2016.cs.ucy.ac.cy/index.php Euromicro Conference on Digital System Design (DSD)], Limassol, Cyprus, 2016. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/a/ab/Altun_EtAl_Synthesis_and_Performance_Optimization_of_a_Switching_Nano-crossbar_Computer.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Altun_EtAl_Synthesis_and_Performance_Optimization_of_a_Switching_Nano-crossbar_Computer.pdf | Paper]] |
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PDF.png|65px|link=https://www.ecc.itu.edu.tr/images/7/7f/Altun_EtAl_Synthesis_and_Performance_Optimization_of_a_Switching_Nano-crossbar_Computer_SLIDES.pdf]] | ||
+ | </span> | ||
+ | <br> [[Media:Altun_EtAl_Synthesis_and_Performance_Optimization_of_a_Switching_Nano-crossbar_Computer_SLIDES.pdf | Slides]] | ||
|} | |} | ||
Line 425: | Line 602: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Morgul_Peker_Altun_Power-Delay-Area_Performance_Modeling_and_Analysis_for_Nano-Crossbar_Arrays.pdf | Power-Delay-Area Performance Modeling and Analysis for Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | [[Mustafa Altun] | + | | Ceylan Morgul, Furkan Peker, and [[Mustafa Altun]] |
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi16/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Pittsburgh, USA, 2016. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/8/8f/Morgul_Peker_Altun_Power-Delay-Area_Performance_Modeling_and_Analysis_for_Nano-Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Morgul_Peker_Altun_Power-Delay-Area_Performance_Modeling_and_Analysis_for_Nano-Crossbar_Arrays.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/5/5a/Morgul_Peker_Altun_Power-Delay-Area_Performance_Modeling_and_Analysis_for_Nano-Crossbar_Arrays.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/5/5a/Morgul_Peker_Altun_Power-Delay-Area_Performance_Modeling_and_Analysis_for_Nano-Crossbar_Arrays.pptx Poster] |
|} | |} | ||
− | === Logic Synthesis === | + | === Logic Synthesis and Fault/Variation Tolerance === |
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 454: | Line 631: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Tunali_Altun_Multiple_type_Defect_Tolerance_in_Nano_Crossbar_Arrays.pdf | A Fast Logic Mapping Algorithm for Multiple-type-Defect Tolerance in Reconfigurable Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Onur Tunali and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | | ''' | + | | '''appeared in''': |
− | | [http:// | + | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6245516 IEEE Transactions on Emerging Topics in Computing], Vol. 7, Issue 4, pp. 518–529, 2019. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/c/c9/Tunali_Altun_Multiple_type_Defect_Tolerance_in_Nano_Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Tunali_Altun_Multiple_type_Defect_Tolerance_in_Nano_Crossbar_Arrays.pdf | Paper]] |
− | | | + | |} |
− | + | ||
− | [[File: | + | {| style="border:2px solid #abd5f5; background:#f1f5fc;" |
− | </span> | + | | |
− | <br> | + | {| |
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Tunali_Morgul_Altun_Defect_Tolerant_Memristor_Crossbars.pdf | Defect Tolerant Logic Synthesis for Memristor Crossbars with Performance Evaluation]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Onur Tunali, Ceylan Morgul, and [[Mustafa Altun]] | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=40 IEEE Micro], Vol. 38, Issue 5, pp. 22–31, 2018. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/d/db/Tunali_Morgul_Altun_Defect_Tolerant_Memristor_Crossbars.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Tunali_Morgul_Altun_Defect_Tolerant_Memristor_Crossbars.pdf | Paper]] | ||
|} | |} | ||
Line 480: | Line 671: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="624"|[[Media: | + | | width="624"|[[Media:Peker_Altun_Variation_Tolerant_Logic_Mapping_of_Nano_Crossbars.pdf | A Fast Hill Climbing Algorithm for Defect and Variation Tolerant Logic Mapping of Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Furkan Peker and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
| '''appeared in''': | | '''appeared in''': | ||
− | | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber= | + | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6687315 IEEE Transactions on Multi-Scale Computing Systems], Vol. 4, No. 4, pp. 522–532, 2018. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/7/71/Peker_Altun_Variation_Tolerant_Logic_Mapping_of_Nano_Crossbars.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Peker_Altun_Variation_Tolerant_Logic_Mapping_of_Nano_Crossbars.pdf | Paper]] |
|} | |} | ||
Line 501: | Line 692: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Tunali_Altun_Nano_Crossbar_Yield_Analysis.pdf| Yield Analysis of Nano-Crossbar Arrays for Uniform and Clustered Defect Distributions]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Onur Tunali and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
| '''presented at''': | | '''presented at''': | ||
− | | width="550"| [http:// | + | | width="550"| [http://icecs2017.org/ IEEE International Conference on Electronics Circuits and Systems (ICECS)], Batumi, Georgia, 2017. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/6/6b/Tunali_Altun_Nano_Crossbar_Yield_Analysis.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Tunali_Altun_Nano_Crossbar_Yield_Analysis.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/6/62/Tunali_Altun_Nano_Crossbar_Yield_Analysis.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/6/62/Tunali_Altun_Nano_Crossbar_Yield_Analysis.pptx Slides] |
|} | |} | ||
Line 527: | Line 718: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="624"|[[Media: | + | | width="624"|[[Media:Tunali_Altun_A_Survey_of_Nano-crossbar_Fault_Tolerance.pdf | A Survey of Fault Tolerance Algorithms for Reconfigurable Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Onur Tunali and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
| '''appeared in''': | | '''appeared in''': | ||
− | | width="624" | [http:// | + | | width="624" | [http://csur.acm.org/ ACM Computing Surveys], Vol. 50, No. 6, Article 79, 2017. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/b/bc/Tunali_Altun_A_Survey_of_Nano-crossbar_Fault_Tolerance.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Tunali_Altun_A_Survey_of_Nano-crossbar_Fault_Tolerance.pdf | Paper]] |
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
− | |||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Tunali_Altun_Permanent_and_Transient_Fault_Tolerance_for_Reconfigurable_Nano-Crossbar_Arrays.pdf | Permanent and Transient Fault Tolerance for Reconfigurable Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Onur Tunali and [[Mustafa Altun]] |
− | |- valign=top | + | |- valign="top" |
− | | ''' | + | | '''appeared in''': |
− | | width=" | + | | width="624" | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=43 IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems], Vol. 36, Issue 5, pp. 747–760, 2017. |
|} | |} | ||
− | |||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/c/cc/Tunali_Altun_Permanent_and_Transient_Fault_Tolerance_for_Reconfigurable_Nano-Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Tunali_Altun_Permanent_and_Transient_Fault_Tolerance_for_Reconfigurable_Nano-Crossbar_Arrays.pdf | Paper]] |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
|} | |} | ||
Line 575: | Line 758: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="550"|[[Media:Tunali_Altun_Defect_Tolerance_in_Diode_FET_and_Four-Terminal_Switch_based_Nano-Crossbar_Arrays.pdf | Defect Tolerance in Diode FET and Four-Terminal Switch Based Nano-Crossbar Arrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | [[Mustafa Altun]] | + | | Onur Tunali and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | |||
− | |||
− | |||
| '''presented at''': | | '''presented at''': | ||
− | | width=" | + | | width="550"|[http://www.nanoarch.org/ IEEE/ACM International Symposium on Nanoscale Architectures (NANOARCH)], Boston, USA, 2015. |
|} | |} | ||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/e/ee/Tunali_Altun_Defect_Tolerance_in_Diode_FET_and_Four-Terminal_Switch_based_Nano-Crossbar_Arrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Tunali_Altun_Defect_Tolerance_in_Diode_FET_and_Four-Terminal_Switch_based_Nano-Crossbar_Arrays.pdf | Paper]] |
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/f/f9/Tunali_Altun_Defect_Tolerance_in_Diode_FET_and_Four-Terminal_Switch_based_Nano-Crossbar_Arrays.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/f/f9/Tunali_Altun_Defect_Tolerance_in_Diode_FET_and_Four-Terminal_Switch_based_Nano-Crossbar_Arrays.pptx Slides] | ||
|} | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
| | | | ||
{| | {| | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media: | + | | width="550"|[[Media:Morgul_Altun_Synthesis_and_Optimization_of_Switching_Nanoarrays.pdf | Synthesis and Optimization of Switching Nanoarrays]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | [[Mustafa Altun]] | + | | Ceylan Morgul and [[Mustafa Altun]] |
− | |- valign= | + | |- valign=top |
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | width="550"| [http://www.ddecs2015.org/ IEEE International Symposium on Design and Diagnostics of Electronic Circuits and Systems (DDECS)], Belgrade, Serbia, 2015. |
|} | |} | ||
+ | |||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/5/59/Morgul_Altun_Synthesis_and_Optimization_of_Switching_Nanoarrays.pdf]]</span> |
<br> | <br> | ||
− | [[Media: | + | [[Media:Morgul_Altun_Synthesis_and_Optimization_of_Switching_Nanoarrays.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/1/1a/Morgul_Altun_Synthesis_and_Optimization_of_Switching_Nanoarrays.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/1/1a/Morgul_Altun_Synthesis_and_Optimization_of_Switching_Nanoarrays.pptx Slides] |
|} | |} | ||
Line 649: | Line 837: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/a/aa/Morgul_Altun_Anahtarlamali_Nano_Dizinler_ile_Lojik_Devre_Tasarimi_ve_Boyut_Optimizasyonu.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/a/aa/Morgul_Altun_Anahtarlamali_Nano_Dizinler_ile_Lojik_Devre_Tasarimi_ve_Boyut_Optimizasyonu.pptx Slides] |
|} | |} | ||
− | == | + | == Stochastic and Bit Stream Computing == |
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 661: | Line 849: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width=" | + | | width="624"|[[Media:Karadeniz_Cevik_Altun_STAMP_Stochastic_Number_Generator.pdf | STAMP: A Real-Time and Low-Power Sampling Error Based Stochastic Number Generator]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
− | | | + | | Burak Karadeniz, Ismail Cevik, and [[Mustafa Altun]] |
|- valign="top" | |- valign="top" | ||
− | | ''' | + | | '''appeared in''': |
− | | [http:// | + | | [http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639 IEEE Access], Vol. 9, pp. 151363–151372, 2021. |
|} | |} | ||
+ | |||
| align=center width="70" | | | align=center width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/ | + | |
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/d/dd/Karadeniz_Cevik_Altun_STAMP_Stochastic_Number_Generator.pdf]]</span> | ||
<br> | <br> | ||
− | [[Media: | + | [[Media:Karadeniz_Cevik_Altun_STAMP_Stochastic_Number_Generator.pdf | Paper]] |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
− | + | ||
|} | |} | ||
− | |||
− | |||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 726: | Line 908: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/a/ab/Karadeniz_Altun_Stochastic_Number_Generator.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/a/ab/Karadeniz_Altun_Stochastic_Number_Generator.pptx Slides] |
|} | |} | ||
Line 743: | Line 925: | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi16/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Pittsburgh, USA, 2016. |
|} | |} | ||
Line 754: | Line 936: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/d/d6/Vahapoglu_Altun_Accurate_Synthesis_of_Arithmetic_Operations_with_Stochastic_Logic.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/d/d6/Vahapoglu_Altun_Accurate_Synthesis_of_Arithmetic_Operations_with_Stochastic_Logic.pptx Poster] |
|} | |} | ||
Line 789: | Line 971: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/f/f0/Yavuz_Altun_Stokastik_Hesaplamada_Hata_Oranlarini_Azaltmak_icin_Rastgele_Bit_Karistirma_Yontemi.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/f/f0/Yavuz_Altun_Stokastik_Hesaplamada_Hata_Oranlarini_Azaltmak_icin_Rastgele_Bit_Karistirma_Yontemi.pptx Slides] |
|} | |} | ||
== Approximate Computing == | == Approximate Computing == | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="550"|[[Media:Nojehdeh_Aksoy_Altun_Approximate_ANN.pdf | Efficient Hardware Implementation of Artificial Neural Networks Using Approximate Multiply-Accumulate Blocks]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Mohammadreza Nojehdeh, Levent Aksoy, and [[Mustafa Altun]] | ||
+ | |- valign=top | ||
+ | | '''presented at''': | ||
+ | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi20/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Limassol, Cyprus, 2020. | ||
+ | |} | ||
+ | |||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/b/bd/Nojehdeh_Aksoy_Altun_Approximate_ANN.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Nojehdeh_Aksoy_Altun_Approximate_ANN.pdf | Paper]] | ||
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/7/7f/Nojehdeh_Aksoy_Altun_Approximate_ANN.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/7/7f/Nojehdeh_Aksoy_Altun_Approximate_ANN.pptx Slides] | ||
+ | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 850: | Line 1,059: | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | width="550"| [http:// | + | | width="550"| [http://smacd-conference.org/ International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)], Prague, Czech Republic, 2018. |
|} | |} | ||
Line 861: | Line 1,070: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/a/a4/Ayhan_Altun_Approximate_Neural_Network_Generation.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/a/a4/Ayhan_Altun_Approximate_Neural_Network_Generation.pptx Slides] |
|} | |} | ||
Line 877: | Line 1,086: | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | [http://www. | + | | [http://www.eng.ucy.ac.cy/theocharides/isvlsi17/ IEEE Computer Society Annual Symposium on VLSI (ISVLSI)], Bochum, Germany, 2017. |
|} | |} | ||
Line 888: | Line 1,097: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/8/86/Ayhan_Kula_Altun_Approximate_System_Design_Methodology.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/8/86/Ayhan_Kula_Altun_Approximate_System_Design_Methodology.pptx Slides] |
|} | |} | ||
Line 923: | Line 1,132: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/5/58/Kula_Ayhan_Altun_Approximate_FIR_Filter_Implementation.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/5/58/Kula_Ayhan_Altun_Approximate_FIR_Filter_Implementation.pptx Slides] |
|} | |} | ||
Line 931: | Line 1,140: | ||
=== Transistor Fabrication === | === Transistor Fabrication === | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc; " | ||
+ | |||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Yedikardes_Altun_Zayim_Investigation_of_P3HT.pdf| Investigation of P3HT:WO3 Hybrid Electrochromic Thin Films Prepared by Solution Blending Doping]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Beyza Yedikardes, [[Mustafa Altun]], and Esra Zayim | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [https://www.sciencedirect.com/journal/synthetic-metals Synthetic Metals], Vol. 297, Article 117407, 2023. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/b/b2/Yedikardes_Altun_Zayim_Investigation_of_P3HT.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Yedikardes_Altun_Zayim_Investigation_of_P3HT.pdf | Paper]] | ||
+ | |||
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc; " | ||
+ | |||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Ordokhani_EtAl_SWCNT_Fabrication_with_Sonication.pdf| Improving Threshold Voltage and ON/OFF Current Ratio of Single-Walled Carbon Nanotube Field-Effect Transistor by Post-Sonication Treatments | ||
+ | ]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Fereshteh Ordokhani, Beyza Yedikardes, Ece Kurt, Nihat Akkan, Nilgün Yavuz, Esra Zayim, and [[Mustafa Altun]] | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [http://www.journals.elsevier.com/thin-solid-films Thin Solid Films], Vol. 727, Article 138677, 2021. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/5/5e/Ordokhani_EtAl_SWCNT_Fabrication_with_Sonication.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Ordokhani_EtAl_SWCNT_Fabrication_with_Sonication.pdf | Paper]] | ||
+ | |||
+ | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc;" | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
Line 938: | Line 1,192: | ||
|- valign=top | |- valign=top | ||
| width="100" |'''title''': | | width="100" |'''title''': | ||
− | | width="550"|[[Media:Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf | | + | | width="550"|[[Media:Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf | Enhanced Electrical Properties of P3HT:WO3 Hybrid Thin Film Transistors]] |
|- valign="top" | |- valign="top" | ||
| '''authors''': | | '''authors''': | ||
| width="550"|Beyza Yedikardes, Fereshteh Ordokhani, Nihat Akkan, Ece Kurt, Esra Zayim, Nilgün Yavuz, and [[Mustafa Altun]] | | width="550"|Beyza Yedikardes, Fereshteh Ordokhani, Nihat Akkan, Ece Kurt, Esra Zayim, Nilgün Yavuz, and [[Mustafa Altun]] | ||
+ | |- valign=top | ||
+ | | '''appeared in''': | ||
+ | | width="550"| [http://www.springer.com/journal/11664 Journal of Electronic Materials], Vol. 50, Issue 4, pp. 2466–2475, 2021. | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
Line 951: | Line 1,208: | ||
[[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/d/d5/Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf]]</span> | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/d/d5/Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf]]</span> | ||
<br> | <br> | ||
− | [[Media:Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf | | + | [[Media:Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pdf | Paper]] |
| align="center" width="70" | | | align="center" width="70" | | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/2/25/Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/2/25/Yedikardes_EtAl_P3HT_WO3_Organic_Transistors.pptx Slides] |
|} | |} | ||
=== Organic Transistor Modeling === | === Organic Transistor Modeling === | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc; " | ||
+ | |||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="624"|[[Media:Akkan_Altun_Sedef_Behavioral_OTFT_Modeling.pdf| Behavioral Modeling for Low-Voltage Pentacene-Based OTFTs and Their Implementations for Organic Logic Circuits | ||
+ | ]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Nihat Akkan, [[Mustafa Altun]], and Herman Sedef | ||
+ | |- valign="top" | ||
+ | | '''appeared in''': | ||
+ | | [https://www.sciencedirect.com/journal/engineering-science-and-technology-an-international-journal Engineering Science and Technology, an International Journal], Vol. 37, Article 101317, 2023. | ||
+ | |} | ||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/3/35/Akkan_Altun_Sedef_Behavioral_OTFT_Modeling.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Akkan_Altun_Sedef_Behavioral_OTFT_Modeling.pdf | Paper]] | ||
+ | |||
+ | |} | ||
+ | |||
+ | {| style="border:2px solid #abd5f5; background:#f1f5fc;" | ||
+ | |||
+ | | | ||
+ | {| | ||
+ | |- valign=top | ||
+ | | width="100" |'''title''': | ||
+ | | width="550"|[[Media:Akkan_Sedef_Altun_TFT_Level_3_Spice_Model.pdf | The Level 3 Based SPICE Model for Low-Voltage Pentacene Thin Film Transistors]] | ||
+ | |- valign="top" | ||
+ | | '''authors''': | ||
+ | | Nihat Akkan, [[Mustafa Altun]], and Herman Sedef | ||
+ | |- valign=top | ||
+ | | '''presented at''': | ||
+ | | width="550"| [http://smacd-conference.org/ International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)], Sardinia, Italy, 2022. | ||
+ | |} | ||
+ | |||
+ | | align=center width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | [[File:PDF.png|65px|link=http://www.ecc.itu.edu.tr/images/c/c1/Akkan_Sedef_Altun_TFT_Level_3_Spice_Model.pdf]]</span> | ||
+ | <br> | ||
+ | [[Media:Akkan_Sedef_Altun_TFT_Level_3_Spice_Model.pdf | Paper]] | ||
+ | | align="center" width="70" | | ||
+ | <span class="plainlinks"> | ||
+ | |||
+ | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/6/6e/Akkan_Sedef_Altun_TFT_Level_3_Spice_Model.pptx]] | ||
+ | </span> | ||
+ | <br> [https://www.ecc.itu.edu.tr/images/6/6e/Akkan_Sedef_Altun_TFT_Level_3_Spice_Model.pptx Slides] | ||
+ | |} | ||
{| style="border:2px solid #abd5f5; background:#f1f5fc; " | {| style="border:2px solid #abd5f5; background:#f1f5fc; " | ||
Line 997: | Line 1,305: | ||
|- valign=top | |- valign=top | ||
| '''presented at''': | | '''presented at''': | ||
− | | width="550"| [http:// | + | | width="550"| [http://smacd-conference.org/ International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)], Prague, Czech Republic, 2018. |
|} | |} | ||
Line 1,008: | Line 1,316: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/b/b9/Akkan_Altun_Sedef_OFET_Parameter_Extraction_with_ABC.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/b/b9/Akkan_Altun_Sedef_OFET_Parameter_Extraction_with_ABC.pptx Slides] |
|} | |} | ||
Line 1,063: | Line 1,371: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/f/f4/Parvin_Altun_CMOS_Fault_Tolerance_with_Preservative_Reversible_Gates.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/f/f4/Parvin_Altun_CMOS_Fault_Tolerance_with_Preservative_Reversible_Gates.pptx Poster] |
|} | |} | ||
Line 1,160: | Line 1,468: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/d/d0/Susam_Altun_An_Efficient_Algorithm_to_Synthesize_Quantum_Circuits_and_Optimization.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/d/d0/Susam_Altun_An_Efficient_Algorithm_to_Synthesize_Quantum_Circuits_and_Optimization.pptx Slides] |
|} | |} | ||
Line 1,192: | Line 1,500: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/3/38/Susam_Altun_Kuantum_Devre_Sentezi_ve_Optimizasyonu_icin_Verimli_Bir_Algoritma.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/3/38/Susam_Altun_Kuantum_Devre_Sentezi_ve_Optimizasyonu_icin_Verimli_Bir_Algoritma.pptx Slides] |
|} | |} | ||
Line 1,265: | Line 1,573: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/d/de/Yadavari_EtAl_Effects_of_ZnO_Varistor_Degradation_on_the_Overvoltage_Protection_Mechanism_of_Electronic_Boards.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/d/de/Yadavari_EtAl_Effects_of_ZnO_Varistor_Degradation_on_the_Overvoltage_Protection_Mechanism_of_Electronic_Boards.pptx Slides] |
|} | |} | ||
Line 1,292: | Line 1,600: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/a/a8/Sal_Altun_Extensive_Investigation_of_CALT_in_Comparison_with_ALT.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/a/a8/Sal_Altun_Extensive_Investigation_of_CALT_in_Comparison_with_ALT.pptx Slides] |
|} | |} | ||
Line 1,320: | Line 1,628: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/a/a7/Comert_Altun_Nadar_Erturk_Warranty_Forecasting_of_Electronic_Boards_using_Short-term_Field_Data.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/a/a7/Comert_Altun_Nadar_Erturk_Warranty_Forecasting_of_Electronic_Boards_using_Short-term_Field_Data.pptx Slides] |
|} | |} | ||
Line 1,347: | Line 1,655: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/e/eb/Comert_Yadavari_Altun_Erturk_Reliability_Prediction_of_Electronic_Boards_by_Analyzing_Field_Return_Data.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/e/eb/Comert_Yadavari_Altun_Erturk_Reliability_Prediction_of_Electronic_Boards_by_Analyzing_Field_Return_Data.pptx Slides] |
|} | |} | ||
Line 1,382: | Line 1,690: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/f/f9/Avci_Altun_Reliability_Model_for_MOSFET_GOB.pptx]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/f/f9/Avci_Altun_Reliability_Model_for_MOSFET_GOB.pptx Slides] |
|} | |} | ||
Line 1,598: | Line 1,906: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/7/77/Altun_Kuntman_A_Wideband_CMOS_Current-Mode_Operational_Amplifier_and_Its_Use_for_Band-Pass_Filter_Realization.ppt]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/7/77/Altun_Kuntman_A_Wideband_CMOS_Current-Mode_Operational_Amplifier_and_Its_Use_for_Band-Pass_Filter_Realization.ppt Slides] |
|} | |} | ||
Line 1,681: | Line 1,989: | ||
<span class="plainlinks"> | <span class="plainlinks"> | ||
− | [[File:PPT.jpg|60px|link= | + | [[File:PPT.jpg|60px|link=https://www.ecc.itu.edu.tr/images/8/8d/Altun_MSc_Thesis_Akim_Modlu_Islemsel_Kuvvetlendirici_Tasarimi_ve_Uygulamalari.ppt]] |
</span> | </span> | ||
− | <br> [ | + | <br> [https://www.ecc.itu.edu.tr/images/8/8d/Altun_MSc_Thesis_Akim_Modlu_Islemsel_Kuvvetlendirici_Tasarimi_ve_Uygulamalari.ppt Slides] |
|} | |} | ||
Latest revision as of 15:25, 30 August 2023
Listed below are the papers, first authored by our group members as an indication that the related research is mainly conducted in our group, and the presentations. Research topics are ordered from newest to oldest as well as by considering their importance. Under each topic, papers are ordered from newest to oldest. All materials are subject to copyrights.
[edit] Computing with Switching Lattices
[edit] Technology Development
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[edit] Logic Synthesis and Fault/Variation Tolerance
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[edit] Energy Efficient ANN Hardware Implementation
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[edit] Computing with Nano-Crossbar Arrays
[edit] Comprehensive Performance Optimization
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[edit] Logic Synthesis and Fault/Variation Tolerance
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[edit] National Publications in Turkish
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[edit] Stochastic and Bit Stream Computing
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[edit] National Publications in Turkish
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[edit] Approximate Computing
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[edit] National Publications in Turkish
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[edit] Large-Area Electronics
[edit] Transistor Fabrication
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[edit] Organic Transistor Modeling
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[edit] Reversible Computing
[edit] CMOS Fault Tolerance
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[edit] Logic Synthesis
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[edit] National Publications in Turkish
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[edit] Reliability of Electronic Products
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[edit] National Publications in Turkish
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[edit] Analog Circuit Design
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[edit] National Publications in Turkish
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[edit] Discrete Mathematics
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