Provider
Omni Design Technologies, Inc.
HQ:
USA
Omni Design Technologies, Inc. is a developer of disruptive, ultra-low power semiconductor embedded circuits (IP Cores), including ultra-low power analog circuits, highly-efficient interface circuits and connected sensors. Our patented and proprietary technology offers solutions that use dramatically lower power and provide superior performance, architected from the ground up to take advantage of deep sub-micron CMOS processes. Omni Design’s mission is to provide a wide range of ultra low-power, high performance embedded circuits configured to enable highly-differentiated semiconductor systems and plug-and-play system-on-chip (SoC) development. Our IP offerings target SoCs that address a wide range of application areas including IoT, test and measurement, high speed interfaces, communications, medical imaging, and sensor hubs. Omni Design Technologies, Inc. is a privately held company with offices in Milpitas, CA and Boston, MA. Omni Design was founded in 2015 by a team of semiconductor industry veterans, technologists, and experienced entrepreneurs with a successful track record of delivering high performance analog solutions that advance the state of the art.
Learn more about Clock Generator IP core
Using our “Specman agent approach for the Mixed Verification” along with exploiting “real” feature of Specman version 8.2, we can introduce directed/constrained randomization to the frequencies needed for the analog modules which are interacting with the DUT (Design Under Test). This approach gives complete controllability over the clock frequencies, which can be directly randomized and modified on-the-fly from the testcase, as the scenario may demand.
As clocks speed increase and the number of clocks increases, a programmable clock generator may offer a better system and EMI design solution
MIPI is the abbreviation of "Mobile Industry Processor Interface". This article will introduce the physical layer specifications of MIPI architecture, and explain the features and benefits of D-PHY and C-PHY respectively. Then, the MIPI perspective on the development and challenges of automotive electronics and the professional MIPI technical services that M31 can provide will be shared.
Fractional-N PLLs are a useful class of PLLs and not well understood. This paper explains in simple terms how these differ from a regular integer PLL. Common applications are listed along with a brief description of the key performance parameter – jitter.
DLX is an open source microprocessor, it’s free and it has never been implemented in a commercial ASIC (Application Specific Integrated Circuit) design. The objective of this project is to use the DLX microprocessor implemented with Wishbone bus interface for a SoC (System-on-Chip) design.
Evolving niche markets, such as ICs for biomedical applications, are very challenging in respect to power consumption and on chip power dissipation, namely, wide range from ultra low power (ULP) functionality (<uW) where IC is battery powered, e.g. mobile micro transducers, to very high power (VHP, >5W), e.g. coded energy transfer from RFID¡¯s for remote sensing and animal tracking.
