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The GCRAM offers a cutting-edge on-chip memory solution, designed to meet the growing demand for efficient memory in high-performance applications. Featuring up to a 50% reduction in silicon area and up to 10 times lower power consumption compared to traditional SRAM, this memory technology supports modern applications like artificial intelligence and machine learning. It is seamlessly integrated into standard CMOS process flows, avoiding additional fabrication steps or increased production costs. A standout feature of GCRAM is its high-density capacity, allowing semiconductor companies to achieve significant efficiency improvements without sacrificing performance. The patented technology provides a scalable and flexible solution for extending Moore's Law for on-chip memories, making it a viable replacement for SRAM in a variety of devices. Designed for numerous high-demand applications, GCRAM is tailored to fit the needs of sectors such as automotive, virtual/augmented reality, and high-performance computing. Its compatibility with standard processes and its substantial performance advantages make it a valuable asset in the latest generation of semiconductor technology.
The Standard-Cell Memory Compiler is a versatile solution designed to offer ultra-low voltage operating memories, suitable for a range of applications from IoT devices to multimedia processing. Engineered to minimize power consumption while offering high flexibility, this compiler supports a seamless transition across various process nodes, enhancing the design adaptability and integration ease for semiconductor developers. Key features include its capacity to operate at ultra-low voltage, which is essential for edge sensing applications in IoT environments. Additionally, it provides multi-ported cache options for DSPs and MCUs, making it highly suitable for complex processing tasks that require efficient data caching. This solution emphasizes easy migration capabilities, allowing for integration across different technological landscapes with minimal effort. It is well-suited for applications requiring customizable size and port configurations, and is designed to be integrated as a soft macro, providing users with substantial flexibility in design and implementation.
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