400G/200G/100G Ethernet PCS IP OpenFive s PCS IP is fully compliant to the IEEE 802.3 standard supporting various rates like 10G, 25G, 40G, 50G, 100G. Built upon a flexible and robust architecture, OpenFive s PCS IP core is compatible with different interfaces for connecting to the MAC. The PCS IP is intended to support the Ethernet applications in Networking and Data Centers. View see the entire get in contact with Ethernet IP
Voltage Monitor with Digital Output (Multi-domain supply monitoring), TSMC N5 The voltage monitor is a low power self-contained IP block specially designed to monitor voltage levels within the core logic voltage domains and provide accurate IR drop analysis. The measurement range is customized to suit each technology. The monitor IP can also measure analogue (IO) supply domains and is also well-suited to monitoring supply levels directly at critical circuit blocks and IR drops between supply pins and critical circuits. View see the entire get in contact with Voltage Monitor IP
1-32Gbps PCI-Express Gen1 - Gen5 PHY and CXL SerDes The Alphawave PipeCORE PHY IP is a high-performance, low-power, low latency PCIe Gen1 – Gen6 and CXL PHY, that supports both NRZ and PAM4 modulation. It includes a hardened PMA layer and a soft PCS layer deliverable. The PipeCORE is based on the industry leading AlphaCORE DSP architecture. The PipeCORE is power and performance optimized for the strenuous challenges of PCIe and is targeted to deliver unparalleled bandwidth for the next generation of computing interfaces and optimized for low latency CXL applications.
Targeted for 45+dB of channel loss for PCIe Gen 1 – Gen5 NRZ rates, the PipeCORE delivers a power-optimized, physical layer IP that yields more than 400Gbps of data throughput per millimeter of Silicon perimeter.
Distributed Thermal Sensor (DTS) Deep NWELL, TSMC N5 The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy measurement across a wide temperature range at enhanced conversion speeds. Thermal activity can be unpredictable and if not monitored carefully can cause over-heating and excessive power consumption which in turn impacts device longevity. The ability to make precise thermal measurements beside or within CPU cores, high speed interfaces or highly active circuitry has become a mandatory requirement for devices used within a range of application areas. View see the entire
Boot Protection Pack / Root-of-Trust The Boot Protection Pack is a solution provided by Secure-IC to ensure a Secure Boot function. The Boot Protection Pack provides a secure root-of-trust with a high level of resistance against malevolent attacks. It ensures integrity of the SoC security features, guarantees that the firmware is genuine and ensures a secure firmware update.
Boot Protection Pack ensures secure boot functionality. The boot sequence is started when the system is turned on, the processor loads and executes a first set of instructions from an internal NVM. This first set of instructions is called bootloader and it is used to initialize Intellectual Property (IP) cores and peripherals of Securyzr sub-system and to enable the transfer of the software which is held in an external NVM to an internal Volatile Memory (VM). To prevent the system from malwares, which are mainly injected through a modification of the Operating System (OS) and the application code, the Boot