BTQ Technologies Corp has acquired advanced computing-in-memory intellectual property from Cimtech Technology Co, a leader in memory technology and computing-in-memory solutions. This strategic acquisition enhances BTQ’s capabilities in post-quantum cryptography and quantum-secure communication technologies.
Cimtech’s cutting-edge technology, developed in collaboration with National Tsing Hua University, complements BTQ’s mission to deliver next-generation secure and energy-efficient computing solutions. Integrating this intellectual property is a move to address the growing challenges of post-quantum cryptography and quantum-ready systems.
Key individuals involved include Jalen Hsu, Cimtech’s Design Team Leader, and Nicolas Roussy Newton, COO of BTQ Technologies. This acquisition positions BTQ at the forefront of computing innovation, with Cimtech’s technology poised to transform the landscape of secure computing, particularly in applications such as zero-knowledge proofs, homomorphic encryption, and post-quantum cryptography.
Introduction to Computing-in-Memory Technology
Computing-in-Memory (CIM) is a revolutionary approach in computer architecture that integrates computation and memory storage into a unified framework. This innovative design overcomes the limitations of traditional computing systems by drastically reducing data movement, thereby improving speed and energy efficiency. CIM technology holds significant promise for applications in machine learning, cryptography, and quantum computing, where the demand for processing power and security continually increases.
The acquisition of Cimtech Technology Co.’s state-of-the-art CIM intellectual property (IP) by BTQ Technologies Corp. marks a substantial milestone in the development of secure computing technologies. Cimtech’s IP includes critical design assets such as Verilog behavior models, timing libraries, layout (GDS), and other advanced components essential for implementing CIM technology. Notably, Cimtech’s IP enables high-speed, low-power computation, making it a cornerstone for creating cutting-edge cryptographic accelerators and secure communication hardware.
The Significance of Cimtech Technology Co.’s Innovation
Cimtech Technology Co. has developed a 32×64 CIM node using TSMC’s 28nm High-Performance Computing (HPC) process. This achievement demonstrates the company’s expertise in memory technology and its commitment to advancing the field of CIM. The collaboration between Cimtech and National Tsing Hua University in Taiwan has been instrumental in leveraging cutting-edge research and academic expertise to develop groundbreaking innovations.
The leadership of Jalen Hsu, Cimtech’s Design Team Leader, has been pivotal in driving the company’s innovation. With his extensive experience in analog IC design, semiconductor processes, and system-on-chip (SoC) project management, Mr. Hsu has spearheaded pioneering projects in memory circuits, silicon-based device physics, and computing architectures. His work has earned international recognition through multiple IEEE publications and patents, including advancements in ESD protection and CMOS image sensors.
Enhancing Number Theoretic Transform (NTT) Capabilities
The acquisition of Cimtech’s CIM IP is expected to have a profound impact on the implementation of the Number Theoretic Transform (NTT). NTT is fundamental in accelerating complex mathematical computations required for applications like zero-knowledge proofs (ZK), homomorphic encryption (HE), and post-quantum cryptography (PQC). By leveraging Cimtech’s CIM IP, BTQ aims to develop specialized NTT accelerators that significantly enhance computational efficiency and security.
The demand for NTT computation in future computing devices is growing rapidly, driven by applications like ZK, HE, and PQC. The combination of BTQ’s advanced algorithms with Cimtech’s circuit design expertise and state-of-the-art CIM IP is expected to accelerate the adoption of NTT accelerators and drive technological advancements across industries.
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