The Semiconductor IP Marketplace

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Spotlight

  • Embedded Hardware Security Module (Root of Trust) - Automotive Grade ISO 26262 ASIL-B
    • The RT-64x Embedded Hardware Security Module (Root of Trust) family are fully programmable, ISO 26262 ASIL-B hardware security cores offering security by design for automotive applications.
    • They protect against a wide range of failures such as permanent, transient and latent faults and hardware and software attacks with state-of-the-art anti-tamper and security techniques.
    Block Diagram -- Embedded Hardware Security Module (Root of Trust) - Automotive Grade ISO 26262 ASIL-B
  • eFPGA on GlobalFoundries GF12LP
    • All Platypus eFPGA hardened IP cores are backed up by an open architecture guarantee. Complete machine readable descriptions of standard architectures can be found in the Logiklib open source repository.
    • The Z1000 standard eFPGA architecture has been ported to the GlobalFoundries GF12LP process.
    Block Diagram -- eFPGA on GlobalFoundries GF12LP
  • ISO26262 ASIL-B/D Compliant 32-bit RISC-V Core
    • D23-SE processor core certified by parts 2, 4, 5, 7, 8 and 9 of the standards, meeting the architectural metrics and random hardware fault metrics requirements for ASIL B/D 
    • D23-SE supports split-mode that 2 cores could run independently when split-lock is configured. ECC for memory soft error protection; bus protection to protect bus transaction; core trap status bus interface provides real time information of trap status from core.
    Block Diagram -- ISO26262 ASIL-B/D Compliant 32-bit RISC-V Core
  • ARINC 664 (AFDX) End System DO-254 IP Core
    • The ARINC 664 (AFDX) End System DO-254 IP Core (AFDX ES IP) implements an AFDX End System as specified in ARINC 664 Part 7 “Avionics Full-Duplex Switched Ethernet (AFDX) Network”.
    • The AFDX ES IP supports MII, RMII, GMII or SGMII as PHY interfaces. Therefore, it is able to transmit and receive at 10 Mbps, 100 Mbps or 1000 Mbps, making full usage of the bandwidth.
    Block Diagram -- ARINC 664 (AFDX) End System DO-254 IP Core
  • UCIe D2D Adapter
    • The D2D Adapter for UCIe is a scalable adapter layer between one or more protocol components and the UCIe PHY, which ensures efficient data transfer across the UCIe Link by seamlessly coordinating with the Protocol Layer and Physical Layer.
    • By minimizing logic on the main data path, it delivers a low-latency, optimized pathway for protocol Flits.
    Block Diagram -- UCIe D2D Adapter
  • Power and Clock Generation IP - GLOBALFOUNDRIES® 22FDX®
    • Tightly integrated power management platform with a soft-IP wrapper around Analog / Mixed-Signal hard macros which generate all supply voltages and clock signals needed to run highly efficient SoCs in GlobalFoundries® 22FDX®.
    • Running from only one supply voltage and reference clock, the IP generates its own internal supplies and references, and those needed to run the Racyics® ABX® Generator.
    Block Diagram -- Power and Clock Generation IP - GLOBALFOUNDRIES® 22FDX®

UCIe Controller IP View All

  • UCIe Die-to-Die Chiplet Controller
    • High configurability and customizability
    • Defines packets to communicate with a link partner using different AXI parameters
    • Supports raw streaming modes
    • Provides various Flit formats in UCIe v1.1 (filt format 2: 68B flit format, flit format 3/4: standard 256B flit format, and flit format 5/6: latency optimized 256B flit format)
    Block Diagram -- UCIe Die-to-Die Chiplet Controller
  • UCIe PHY & D2D Adapter
    • 32Gbps UCIe-Advanced (UCIe-A) & Standard (UCIe-S)
    • UCIe v1.1 specification
    Block Diagram -- UCIe PHY & D2D Adapter
  • 2-16Gbps Multi-Protocol IO Supporting BOW, OHBI and UCIe
    • High Bandwidth Density and Data Rates
    • Package Configurability
    • Energy Efficiency
    • Fully Integrated Solution
    Block Diagram -- 2-16Gbps Multi-Protocol IO Supporting BOW, OHBI and UCIe

PCIe 7.0 IP View All

  • PCIe 7.0 Controller with AXI
    • Optimized for high-bandwidth efficiency at data rates up to 128 GT/s
    • Separate native TX/RX data path separating posted/Non posted/completion traffic
    • Handles up to 4 TLPs per cycle
    • Advanced PIPE modes and port bifurcation
    Block Diagram -- PCIe 7.0 Controller with AXI
  • PCIe 7.0 PHY IP
    • Physical Coding Sublayer (PCS) block with PIPE interface
    • Supports PCIe 7.0, encoding, backchannel initialization
    • Lane margining at the receiver
  • PCIe 7.0 PHY in TSMC (N5, N3P)
    • Physical Coding Sublayer (PCS) block with PIPE interface
    • Supports PCIe 7.0, encoding, backchannel initialization
    • Lane margining at the receiver
    • Spread-spectrum clocking (SSC)

AI IP View All

  • RISC-V CPU IP
    • RISC-V RVA23 Compliant 
    • >18 SPECint2006/GHz
    • 8-wide decode unit
    • Advanced branch predictor
    Block Diagram -- RISC-V CPU IP
  • NPU IP for Embedded AI
    • Fully programmable to efficiently execute Neural Networks, feature extraction, signal processing, audio and control code
    • Scalable performance by design to meet wide range of use cases with MAC configurations with up to 64 int8 (native 128 of 4x8) MACs per cycle
    • Future proof architecture that supports the most advanced ML data types and operators
    Block Diagram -- NPU IP for Embedded AI
  • Future-proof IP for training and inference with leading performance per watt and per dollar
    • RISC-V-based AI IP development for enhanced training and inference.
    • Silicon-proven solutions tailored for AI workload optimization.
    • Energy-efficient performance with industry-leading Perf/W.
    Block Diagram -- Future-proof IP for training and inference with leading performance per watt and per dollar

MIPI IP View All

RISC-V IP View All

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