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1. Fault-Tolerant Masked Matrix Accumulation using Bulk Bitwise In-Memory Engines

Author

de Lima, João Paulo Cardoso, Morris III, Benjamin Franklin, Khan, Asif Ali, Castrillon, Jeronimo, and Jones, Alex K.

Subjects
Computer Science - Hardware Architecture, Computer Science - Emerging Technologies
Abstract

Big data processing has exposed the limits of compute-centric hardware acceleration due to the memory-to-processor bandwidth bottleneck. Consequently, there has been a shift towards memory-centric architectures, leveraging substantial compute parallelism by processing using the memory elements directly. Computing-in-memory (CIM) proposals for both conventional and emerging memory technologies often target massively parallel operations. However, current CIM solutions face significant challenges. For emerging data-intensive applications, such as advanced machine learning techniques and bioinformatics, where matrix multiplication is a key primitive, memristor crossbars suffer from limited write endurance and expensive write operations. In contrast, while DRAM-based solutions have successfully demonstrated multiplication using additions, they remain prohibitively slow. This paper introduces Count2Multiply, a technology-agnostic digital-CIM method for performing integer-binary and integer-integer matrix multiplications using high-radix, massively parallel counting implemented with bitwise logic operations. In addition, Count2Multiply is designed with fault tolerance in mind and leverages traditional scalable row-wise error correction codes, such as Hamming and BCH codes, to protect against the high error rates of existing CIM designs. We demonstrate Count2Multiply with a detailed application to CIM in conventional DRAM due to its ubiquity and high endurance. We also explore the acceleration potential of racetrack memories due to their shifting properties, which are natural for Count2Multiply, and their high endurance. Compared to the state-of-the-art in-DRAM method, Count2Multiply achieves up to 10x speedup, 3.8x higher GOPS/Watt, and 1.4x higher GOPS/area, while the RTM counterpart offers gains of 10x, 57x, and 3.8x., Comment: 14 pages

Published
2024

2. Towards Error Correction for Computing in Racetrack Memory

Author

Brazzle, Preston, Morris III, Benjamin F., McKinney, Evan, Zhou, Peipei, Hu, Jingtong, Khan, Asif Ali, and Jones, Alex K.

Subjects
Computer Science - Hardware Architecture
Abstract

Computing-in-memory (CIM) promises to alleviate the Von Neumann bottleneck and accelerate data-intensive applications. Depending on the underlying technology and configuration, CIM enables implementing compute primitives in place, such as multiplication, search operations, and bulk bitwise logic operations. Emerging nonvolatile memory technologies such as spintronic Racetrack memory (RTM) promise not only unprecedented density but also significant parallelism through CIM. However, most CIM designs, including those based on RTM, exhibit high fault rates. Existing error correction codes (ECC) are not homomorphic over bitwise operations such as AND and OR, and hence cannot protect against CIM faults. This paper proposes CIRM-ECC, a technique to protect spintronic RTMs against CIM faults. At the core of CIRM-ECC, we use a recently proposed RTM-based CIM approach and leverage its peripheral circuitry to our implement our novel ECC codes. We show that CIRM-ECC can be applied to single-bit Hamming codes as well as multi-bit BCH codes., Comment: 4 pages, 6 figures, to be submitted to IEEE CAL

Published
2024

4. Advancing Quantum Software Engineering: A Vision of Hybrid Full-Stack Iterative Model

Author

Khan, Arif Ali, Taibi, Davide, Perrault, Cécile M., and Khan, Asif Ali

Subjects
Computer Science - Software Engineering
Abstract

This paper introduces a vision for Quantum Software Development lifecycle, proposing a hybrid full-stack iterative model that integrates quantum and classical computing. Addressing the current challenges in Quantum Computing (QC) such as the need for integrating diverse programming languages and managing the complexities of quantum-classical systems, this model is rooted in the principles of DevOps and continuous software engineering. It presents a comprehensive lifecycle for quantum software development, encompassing quantum-agnostic coding, testing, deployment, cloud computing services, orchestration, translation, execution, and interpretation phases. Each phase is designed to accommodate the unique demands of QC, enabling traditional software developers to engage with QC environments without needing in-depth QC expertise. The paper presents a detailed implementation roadmap, utilizing a range of existing tools and frameworks, thereby making quantum software development more accessible and efficient. The proposed model not only addresses current challenges in quantum software development but also makes a substantial contribution to the field of Quantum Software Engineering (QSE). By proposing a structured and accessible model, it sets the stage for further advancements and research in QSE, enhancing its practicality and relevance in a wide range of applications.

Published
2024

5. The Landscape of Compute-near-memory and Compute-in-memory: A Research and Commercial Overview

Author

Khan, Asif Ali, De Lima, João Paulo C., Farzaneh, Hamid, and Castrillon, Jeronimo

Subjects
Computer Science - Hardware Architecture
Abstract

In today's data-centric world, where data fuels numerous application domains, with machine learning at the forefront, handling the enormous volume of data efficiently in terms of time and energy presents a formidable challenge. Conventional computing systems and accelerators are continually being pushed to their limits to stay competitive. In this context, computing near-memory (CNM) and computing-in-memory (CIM) have emerged as potentially game-changing paradigms. This survey introduces the basics of CNM and CIM architectures, including their underlying technologies and working principles. We focus particularly on CIM and CNM architectures that have either been prototyped or commercialized. While surveying the evolving CIM and CNM landscape in academia and industry, we discuss the potential benefits in terms of performance, energy, and cost, along with the challenges associated with these cutting-edge computing paradigms.

Published
2024

6. Full-Stack Optimization for CAM-Only DNN Inference

Author

de Lima, João Paulo C., Khan, Asif Ali, Carro, Luigi, and Castrillon, Jeronimo

Subjects
Computer Science - Hardware Architecture, Computer Science - Emerging Technologies, Computer Science - Machine Learning
Abstract

The accuracy of neural networks has greatly improved across various domains over the past years. Their ever-increasing complexity, however, leads to prohibitively high energy demands and latency in von Neumann systems. Several computing-in-memory (CIM) systems have recently been proposed to overcome this, but trade-offs involving accuracy, hardware reliability, and scalability for large models remain a challenge. Additionally, for some CIM designs, the activation movement still requires considerable time and energy. This paper explores the combination of algorithmic optimizations for ternary weight neural networks and associative processors (APs) implemented using racetrack memory (RTM). We propose a novel compilation flow to optimize convolutions on APs by reducing their arithmetic intensity. By leveraging the benefits of RTM-based APs, this approach substantially reduces data transfers within the memory while addressing accuracy, energy efficiency, and reliability concerns. Concretely, our solution improves the energy efficiency of ResNet-18 inference on ImageNet by 7.5x compared to crossbar in-memory accelerators while retaining software accuracy., Comment: To be presented at DATE24

Published
2024

11. C4CAM: A Compiler for CAM-based In-memory Accelerators

Author

Farzaneh, Hamid, de Lima, João Paulo Cardoso, Li, Mengyuan, Khan, Asif Ali, Hu, Xiaobo Sharon, and Castrillon, Jeronimo

Subjects
Computer Science - Hardware Architecture
Abstract

Machine learning and data analytics applications increasingly suffer from the high latency and energy consumption of conventional von Neumann architectures. Recently, several in-memory and near-memory systems have been proposed to remove this von Neumann bottleneck. Platforms based on content-addressable memories (CAMs) are particularly interesting due to their efficient support for the search-based operations that form the foundation for many applications, including K-nearest neighbors (KNN), high-dimensional computing (HDC), recommender systems, and one-shot learning among others. Today, these platforms are designed by hand and can only be programmed with low-level code, accessible only to hardware experts. In this paper, we introduce C4CAM, the first compiler framework to quickly explore CAM configurations and to seamlessly generate code from high-level TorchScript code. C4CAM employs a hierarchy of abstractions that progressively lowers programs, allowing code transformations at the most suitable abstraction level. Depending on the type and technology, CAM arrays exhibit varying latencies and power profiles. Our framework allows analyzing the impact of such differences in terms of system-level performance and energy consumption, and thus supports designers in selecting appropriate designs for a given application., Comment: 10 pages, 9 figures

Published
2023

12. CINM (Cinnamon): A Compilation Infrastructure for Heterogeneous Compute In-Memory and Compute Near-Memory Paradigms

Author

Khan, Asif Ali, Farzaneh, Hamid, Friebel, Karl F. A., Fournier, Clément, Chelini, Lorenzo, and Castrillon, Jeronimo

Subjects
Computer Science - Hardware Architecture
Abstract

The rise of data-intensive applications exposed the limitations of conventional processor-centric von-Neumann architectures that struggle to meet the off-chip memory bandwidth demand. Therefore, recent innovations in computer architecture advocate compute-in-memory (CIM) and compute-near-memory (CNM), non-von- Neumann paradigms achieving orders-of-magnitude improvements in performance and energy consumption. Despite significant technological breakthroughs in the last few years, the programmability of these systems is still a serious challenge. Their programming models are too low-level and specific to particular system implementations. Since such future architectures are predicted to be highly heterogenous, developing novel compiler abstractions and frameworks become necessary. To this end, we present CINM (Cinnamon), a first end-to-end compilation flow that leverages the hierarchal abstractions to generalize over different CIM and CNM devices and enable device-agnostic and device-aware optimizations. Cinnamon progressively lowers input programs and performs optimizations at each level in the lowering pipeline. To show its efficacy, we evaluate CINM on a set of benchmarks for the well-known UPMEM CNM system and the memristors-based CIM accelerators. We show that Cinnamon, supporting multiple hardware targets, generates high-performance code comparable to or better than state-of-the-art implementations., Comment: 16 pages, 12 figures

Published
2022

13. DNA Pre-alignment Filter using Processing Near Racetrack Memory

Author

Hameed, Fazal, Khan, Asif Ali, Ollivier, Sebastien, Jones, Alex K., and Castrillon, Jeronimo

Subjects
Computer Science - Emerging Technologies, Computer Science - Hardware Architecture
Abstract

Recent DNA pre-alignment filter designs employ DRAM for storing the reference genome and its associated meta-data. However, DRAM incurs increasingly high energy consumption background and refresh energy as devices scale. To overcome this problem, this paper explores a design with racetrack memory (RTM)--an emerging non-volatile memory that promises higher storage density, faster access latency, and lower energy consumption. Multi-bit storage cells in RTM are inherently sequential and thus require data placement strategies to mitigate the performance and energy impacts of shifting during data accesses. We propose a near-memory pre-alignment filter with a novel data mapping and several shift reduction strategies designed explicitly for RTM. On a set of four input genomes from the 1000 Genome Project, our approach improves performance and energy efficiency by 68% and 52%, respectively, compared to the state of the art proposed DRAM-based architecture.

Published
2022
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16. Exploring the interface dynamics of emulsion gel via a novel non-destructive technique provides insights into the underlying mechanism of gel formation, water mobility, functionality and structural variations

Author

Qayum, Abdul, Rashid, Arif, Khan, Asif Ali, Zhong, Mingming, Liu, Yuxuan, Hussain, Muhammad, Virk, Muhammad Safiullah, Ahmed, Zahoor, Rehman, Abdur, Hussain, Abid, Liang, Qiufang, Ren, Xiaofeng, Ma, Haile, El-Salam, Ekram Abd, and Miao, Song

Published
2024
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17. Brain-inspired Cognition in Next Generation Racetrack Memories

Author

Khan, Asif Ali, Ollivier, Sebastien, Longofono, Stephen, Hempel, Gerald, Castrillon, Jeronimo, and Jones, Alex K.

Subjects
Computer Science - Machine Learning, Computer Science - Hardware Architecture, Computer Science - Emerging Technologies
Abstract

Hyperdimensional computing (HDC) is an emerging computational framework inspired by the brain that operates on vectors with thousands of dimensions to emulate cognition. Unlike conventional computational frameworks that operate on numbers, HDC, like the brain, uses high dimensional random vectors and is capable of one-shot learning. HDC is based on a well-defined set of arithmetic operations and is highly error-resilient. The core operations of HDC manipulate HD vectors in bulk bit-wise fashion, offering many opportunities to leverage parallelism. Unfortunately, on conventional Von-Neuman architectures, the continuous movement of HD vectors among the processor and the memory can make the cognition task prohibitively slow and energy-intensive. Hardware accelerators only marginally improve related metrics. On the contrary, only partial implementation of an HDC framework inside memory, using emerging memristive devices, has reported considerable performance/energy gains. This paper presents an architecture based on racetrack memory (RTM) to conduct and accelerate the entire HDC framework within the memory. The proposed solution requires minimal additional CMOS circuitry and uses a read operation across multiple domains in RTMs called transverse read (TR) to realize exclusive-or (XOR) and addition operations. To minimize the overhead the CMOS circuitry, we propose an RTM nanowires-based counting mechanism that leverages the TR operation and the standard RTM operations. Using language recognition as the use case demonstrates 7.8x and 5.3x reduction in the overall runtime and energy consumption compared to the FPGA design, respectively. Compared to the state-of-the-art in-memory implementation, the proposed HDC system reduces the energy consumption by 8.6x., Comment: Preprint, accepted for publication, ACM Transactions on Embedded Computing Systems. ACM Trans. Embed. Comput. Syst. (March 2022)

Published
2021
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25. Generalized Data Placement Strategies for Racetrack Memories

Author

Khan, Asif Ali, Goens, Andres, Hameed, Fazal, and Castrillon, Jeronimo

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Ultra-dense non-volatile racetrack memories (RTMs) have been investigated at various levels in the memory hierarchy for improved performance and reduced energy consumption. However, the innate shift operations in RTMs hinder their applicability to replace low-latency on-chip memories. Recent research has demonstrated that intelligent placement of memory objects in RTMs can significantly reduce the amount of shifts with no hardware overhead, albeit for specific system setups. However, existing placement strategies may lead to sub-optimal performance when applied to different architectures. In this paper we look at generalized data placement mechanisms that improve upon existing ones by taking into account the underlying memory architecture and the timing and liveliness information of memory objects. We propose a novel heuristic and a formulation using genetic algorithms that optimize key performance parameters. We show that, on average, our generalized approach improves the number of shifts, performance and energy consumption by 4.3x, 46% and 55% respectively compared to the state-of-the-art., Comment: 6 pages, 6 figures

Published
2019
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26. ShiftsReduce: Minimizing Shifts in Racetrack Memory 4.0

Author

Khan, Asif Ali, Hameed, Fazal, Blaesing, Robin, Parkin, Stuart, and Castrillon, Jeronimo

Subjects
Computer Science - Emerging Technologies, Computer Science - Hardware Architecture
Abstract

Racetrack memories (RMs) have significantly evolved since their conception in 2008, making them a serious contender in the field of emerging memory technologies. Despite key technological advancements, the access latency and energy consumption of an RM-based system are still highly influenced by the number of shift operations. These operations are required to move bits to the right positions in the racetracks. This paper presents data placement techniques for RMs that maximize the likelihood that consecutive references access nearby memory locations at runtime thereby minimizing the number of shifts. We present an integer linear programming (ILP) formulation for optimal data placement in RMs, and revisit existing offset assignment heuristics, originally proposed for random-access memories. We introduce a novel heuristic tailored to a realistic RM and combine it with a genetic search to further improve the solution. We show a reduction in the number of shifts of up to 52.5%, outperforming the state of the art by up to 16.1%., Comment: 27 pages, 15 figures

Published
2019
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28. Reengineering of the CRISPR/Cas System

Author

Khan, Zulqurnain, Sattar, Tahmina, Siddique, Maria, Ali, Zulfiqar, Khan, Asif Ali, Aftab, Syed Ovais, Ghouri, Muhammad Zubair, Sultan, Qaisar, Gulzar, Nauman, Ahmad, Farooq, Ahmad, Aftab, editor, Khan, Sultan Habibullah, editor, and Khan, Zulqurnain, editor

Published
2022
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36. Cotton Seed System

Author

Shah, Fawad Salman, primary, Bhatti, Muhammad Aslam, additional, Khan, Asif Ali, additional, Baig, Irfan Ahmad, additional, Tahir, Muhammad Hammad Nadeem, additional, Ahmad, Furqan, additional, and Bakhtavar, Muhammad Amir, additional

Published
2022
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37. Breeding Cotton for Insect/Pests Resistance

Author

Cheema, Hafiza Masooma Naseer, primary, Khan, Asif Ali, additional, Khan, Muhammad Aakif, additional, Pervez, Muhammad Ans, additional, Ghouri, Muhammad Zubair, additional, Ahmad, Aftab, additional, and Khan, Sultan Habibullah, additional

Published
2022
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40. Conventional Breeding of Cotton

Author

Ashraf, Farzana, primary, Iqbal, Nadia, additional, Nazeer, Wajid, additional, Zia, Zia Ullah, additional, Khan, Asif Ali, additional, and Ahmad, Saghir, additional

Published
2022
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42. Contributors

Author

Abbas, Ghulam, primary, Adeel, Muhammad, additional, Aftab, Tariq, additional, Afza, Nishat, additional, Afzal, Shadma, additional, Ahmad, Shakeel, additional, Ahmad, Zahoor, additional, Akhter, Sohail, additional, Ali, Mohammad Eyakub, additional, Ali, Sahin, additional, Ali, Zulfiqar, additional, Amin, Huma, additional, Anil, Ajin S., additional, Anjum, Mohsina, additional, Banerjee, Aditya, additional, Banerjee, Amrita, additional, Bansal, K.C., additional, Bansal, Radhika, additional, Bashir, Muhammad Amjad, additional, Behera, Laxmipreeya, additional, Bhadra, Preetha, additional, Bhatta, Bishal Binaya, additional, Bhattacharyya, Samrat, additional, Bhutia, Karma L., additional, Brestic, Marian, additional, Chandan, Kumari, additional, Chandra, Kailash, additional, Chaudhary, Nidhi, additional, Chauhan, Jyoti, additional, Choudhury, Sourav, additional, Dash, Deepali, additional, Datta, Diptanu, additional, Devedee, Anoop Kumar, additional, Dey, Prajjal, additional, Dutta, Asik, additional, Goel, Sonia, additional, Gorovtsov, Andrey, additional, Hassan, Mohamed M., additional, Hassan, Zeshan, additional, Hidangmayum, Akash, additional, Hossain, Akbar, additional, Hussain, Mubshar, additional, Ijaz, Muhammad, additional, Iqbal, Muhammad Munir, additional, Islam, Tanjina, additional, Islam, Tofazzal, additional, Jamil, Shakra, additional, Jatav, Hanuman Singh, additional, Kanwal, Shamsa, additional, Khan, Asif Ali, additional, Khan, Azhar Abbas, additional, Khan, Zulqurnain, additional, Kumari, Aradhna, additional, Kumari, Asha, additional, Kundu, Arnab, additional, Maitra, Sagar, additional, Mallick, Payel, additional, Manzoor, Zahid, additional, Mishra, Udit Nandan, additional, Mohapatra, Kiran Kumar, additional, Moulik, Debjyoti, additional, Nisar, Amina, additional, Panda, Darshan, additional, Pandey, Himanshu, additional, Pandita, Deepu, additional, Parida, Selukash, additional, Patra, Abhik, additional, Patra, Kiranmay, additional, Pattnaik, Debasish, additional, Praharaj, Subhashisa, additional, Pramanick, Biswajit, additional, Rahman, Md. Muzahid E., additional, Rajput, Vishnu D., additional, Raza, Hafiz Muhammad Ali, additional, Raza, Qurat-Ul-Ain, additional, Rehim, Abdur, additional, Rekwar, Ravindra Kumar, additional, Roy, Somnath, additional, Roychoudhury, Aryadeep, additional, Sadhukhan, Rahul, additional, Saha, Debanjana, additional, Sahoo, Sanjib Kumar, additional, Sarwat, Maryam, additional, Sathyanarayana, Eetela, additional, Sattar, Abdul, additional, Sen, Suman, additional, Shahzad, Rahil, additional, Shahzad, Umbreen, additional, Shankar, Tanmoy, additional, Sharma, Binny, additional, Sharma, Deepa, additional, Sharma, Laimayum Devarishi, additional, Sher, Ahmad, additional, Singh, Ankur, additional, Singh, Bansh Narayan, additional, Singh, Manish P., additional, Singh, Nand K., additional, Singh, Santosh Kumar, additional, Singh, Satish Kumar, additional, Singhal, Rajesh Kumar, additional, Skalicky, Milan, additional, Syed, M. Abu, additional, Syed, Tahira, additional, Tabassum, Javaria, additional, Thakkar, Shalini, additional, Thangjam, Rojeet, additional, Trivedi, Ankita, additional, Ul-Allah, Sami, additional, Yousaf, Muhammad Irfan, additional, and Zafar, Syed Adeel, additional

Published
2022
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43. A comparative study of growth, biological efficiency, antioxidant activity and molecular structure in wild and commercially cultivated Auricularia cornea strains

Author

Khan Asif Ali, Yao Fangjie, Idrees Muhammad, Lu Lixin, Fang Ming, Wang Peng, Jiang Wan-Zhu, and Zhang You Min

Subjects
antioxidant, auricularia cornea, energy-dispersive x-ray, fourier-transform infrared spectroscopy, scanning electron microscopy, Plant culture, SB1-1110
Abstract

Auricularia cornea, jelly mushroom, is a popular ingredient of traditional Chinese cuisine. This study aimed at evaluating the growth, yield, biological efficiency, total phenolic and flavonoid contents, the antioxidant activity, elemental composition, and molecular structure of the wild and domesticated strain Ac24 and the commercially cultivated edible mushroom A. cornea strains Ac1, Ac3 and Ac15. Based on the weight of the fresh fruiting bodies of A. cornea strains, the maximum yield was obtained from commercial strain Ac1 (237.10 g), followed by Ac3 (224.47 g), Ac15 (158 g) and Ac24 (132.37 g), while the biological efficiency range of A. cornea strains was 52.94–94.84%, with significant differences among the A. cornea strains. Our results revealed that Ac24 contained the highest phenolic content (20.10 mg GAE · g−1), while the highest flavonoid content was found in Ac1 (35.13 mg CE · g−1). The maximum mineral contents and the strains were as follows: copper (7.2 mg · kg−1) and zinc (310 mg · kg−1) in Ac1, manganese (788 mg · kg−1) in Ac3 and iron (310 mg · kg−1) in Ac24. DPPH assay found maximum antioxidant activity in Ac24 (IC50 0.233 mg TX · mL−1), FRAP (591 mg TX · g−1) in Ac15, and erythrocyte haemolysis in Ac24. SEM-EDX and FTIR analyses verified the differences among A. cornea strains. The results revealed that wild, domesticated A. cornea strain Ac24 is a promising dietary source of natural antioxidants and is of high nutritional value, compared to commercially cultivated strains.

Published
2020
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49. Discovery of Rare Mutations in Populations: TILLING by Sequencing

Author

Tsai, Helen, Howell, Tyson, Nitcher, Rebecca, Missirian, Victor, Watson, Brian, Ngo, Kathie J, Lieberman, Meric, Fass, Joseph, Uauy, Cristobal, Tran, Robert K, Khan, Asif Ali, Filkov, Vladimir, Tai, Thomas H, Dubcovsky, Jorge, and Comai, Luca

Subjects
Genetics, Human Genome, Cancer, Genes, Plant, Genetics, Population, Genome, Plant, Mutagenesis, Mutation, Oryza, Pilot Projects, Probability, Sequence Analysis, DNA, Templates, Genetic, Triticum, Biological Sciences, Agricultural and Veterinary Sciences, Plant Biology & Botany
Abstract

Discovery of rare mutations in populations requires methods, such as TILLING (for Targeting Induced Local Lesions in Genomes), for processing and analyzing many individuals in parallel. Previous TILLING protocols employed enzymatic or physical discrimination of heteroduplexed from homoduplexed target DNA. Using mutant populations of rice (Oryza sativa) and wheat (Triticum durum), we developed a method based on Illumina sequencing of target genes amplified from multidimensionally pooled templates representing 768 individuals per experiment. Parallel processing of sequencing libraries was aided by unique tracer sequences and barcodes allowing flexibility in the number and pooling arrangement of targeted genes, species, and pooling scheme. Sequencing reads were processed and aligned to the reference to identify possible single-nucleotide changes, which were then evaluated for frequency, sequencing quality, intersection pattern in pools, and statistical relevance to produce a Bayesian score with an associated confidence threshold. Discovery was robust both in rice and wheat using either bidimensional or tridimensional pooling schemes. The method compared favorably with other molecular and computational approaches, providing high sensitivity and specificity.

Published
2011

50. Special Session - Non-Volatile Memories: Challenges and Opportunities for Embedded System Architectures with Focus on Machine Learning Applications

Author

Henkel, Jorg, primary, Siddhu, Lokesh, additional, Bauer, Lars, additional, Teich, Jurgen, additional, Wildermann, Stefan, additional, Tahoori, Mehdi, additional, Mayahinia, Mahta, additional, Castrillon, Jeronimo, additional, Khan, Asif Ali, additional, Farzaneh, Hamid, additional, Lima, Joao Paulo C. De, additional, Chen, Jian-Jia, additional, Hakert, Christian, additional, Chen, Kuan-Hsun, additional, Yang, Chia-Lin, additional, and Cheng, Hsiang-Yun, additional

Published
2023
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