The Semiconductor IP Marketplace

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Spotlight

  • Voltage and Temperature Sensor with integrated ADC - GlobalFoundries® 22FDX®
    • Voltage and temperature monitoring
    • 3 single-ended voltage measurement inputs
    • Operating temperature range: -40°C to 150°C
    • Temperature measurement with accuracy up to 1°K ± 1°K change in temperature
    Block Diagram -- Voltage and Temperature Sensor with integrated ADC - GlobalFoundries® 22FDX®
  • Third-Generation 5G-Advanced Modem IP Platform
    • Ceva’s third-generation PentaG platform is a production-ready 5G-Advanced modem IP architecture that integrates baseband hardware, L1 PHY software, and comprehensive verification assets into a single reusable subsystem.
    • Compared with the previous generation, the third-generation PentaG platform delivers substantial improvements in performance, scalability, and integration efficiency across both satellite and terrestrial deployments.
    Block Diagram -- Third-Generation 5G-Advanced Modem IP Platform
  • 8MHz / 40MHz Pierce Oscillator - X-FAB XT018-0.18µm
    • The TS_XOSC_40M_X8 is a 8MHz / 40MHz Pierce oscillator that generates a VCC-level logic square wave when a 8MHz / 40MHz quartz crystal is connected between its output XOUT and input XIN with external grounded load capacitors.
    Block Diagram -- 8MHz / 40MHz Pierce Oscillator - X-FAB XT018-0.18µm
  • UCIe RX Interface
    • Receive-only UCIe Rev1.1 with FIFO Interface
    • Samsung 8nm process
    • Low power UCIe D2D
    • 1 pJ/bit at 0.7V
    Block Diagram -- UCIe RX Interface
  • Very Low Latency BCH Codec
    • High performance, low latency
    • Small size (75K gates for k=298, t=4) configuration, the core uses just 17K gates in ASIC)
    • Entirely self-contained (no external RAM required)
    • Data inputs and outputs have flip-flops attached to the pins
    Block Diagram -- Very Low Latency BCH Codec
  • 5G-NTN Modem IP for Satellite User Terminals
    • Reduces integration complexity for satellite-focused design teams
    • Accelerates time-to-silicon for 5G-NTN terminal SoCs
    • Minimizes modem development risk with validated subsystem architecture
    • Enables differentiation through programmable DSP and flexible software interfaces
    Block Diagram -- 5G-NTN Modem IP for Satellite User Terminals

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
  • TSMC CLN5FF GUCIe LP Die-to-Die PHY
    • IGAD2DY11A is an LP (Low Power) Die-to-Die (D2D) PHY for SoIC-X Face-to-Face advanced package.
    • This GUCIe PHY not only supports UCIe specification rev 1.1 compliance physical layer and Raw D2D interface (RDI) but also optionally provides the
    Block Diagram -- TSMC CLN5FF GUCIe LP Die-to-Die PHY

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 ML
    • 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 ML
  • 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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