The Pulse
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zeroRISC Successfully Implements Post-Quantum Cryptographic Algorithm for Firmware Signing in Chip Provisioning Platform
2024-12-12T16:59:00+01:00
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BOS and Tenstorrent Unveil Eagle-N, Industry’s First Automotive AI Accelerator Chiplet SoC
2024-12-12T16:41:00+01:00
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CEA-Leti Demonstrates Embedded FeRAM Platform Compatible with 22nm FD-SOI Node
2024-12-12T07:23:00+01:00
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Jmem Tek and Andes Technology Partner on the World’ s First Quantum-Secure RISC-V Chip
2024-12-11T19:10:00+01:00
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Synopsys Advances AI Interconnects with Ultra Ethernet and UALink IP Solutions
2024-12-11T19:00:00+01:00
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HiFive Premier P550 Development Boards with Ubuntu Now Available—With Great Reviews and a Lower Price
2024-12-11T17:23:00+01:00
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Akeana : Breaking Performance Barriers
2024-12-11T08:05:00+01:00
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MosChip® selects Cadence tools for the design of HPC Processor “AUM” for C-DAC
2024-12-11T08:00:00+01:00
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Via LA Launches Voice Codec Pool with Deep Market Adoption, Five Large Global Licensors
2024-12-11T07:55:00+01:00
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The Future of Technology: Trends in Automotive
2024-12-11T06:32:00+01:00
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Cadence and Rapidus Collaborate on Leading-Edge 2nm Semiconductor Solutions for AI and HPC Applications
2024-12-11T06:16:00+01:00
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Crypto Quantique upgrades QuarkLink IoT device security platform for post-quantum cryptography (PQC)
2024-12-10T21:59:00+01:00
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Micon Global Selected as Sales Representative for Blue Cheetah Analog Design
2024-12-10T21:34:00+01:00
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TSMC November 2024 Revenue Report
2024-12-10T21:20:00+01:00
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eUSB2V2 with 4.8Gbps and Use Cases: A Comprehensive Overview
2024-12-10T17:57:00+01:00
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Bringing SOT-MRAM Tech Closer to Cache Memory
2024-12-10T17:41:00+01:00
Spotlight
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JPEG Compression IP Core
- ISO/IEC 10918-1: Baseline sequential DCT method.
- Encoding: Single-frame JPEG images and Motion JPEG.
- Color Depth: 8 bits per channel.
- Color Components: Up to four; supports image sizes upto 64k x 64k.
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UALink IP Solution
- Lightweight, low latency IP solution for XPU to XPU interconnects optimized for AI workloads
- Fully integrated IP solution for AI accelerators (XPUs), GPUs, and switches
- Enables maximum throughput with up to 200Gbps per lane
- Supports memory sharing capabilities to expand compute and memory resources from XPU to XPU
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Complete 1.6T Ultra Ethernet IP Solution
- Ethernet MAC, PCS and PHY to complete a full Ultra Ethernet interface stack
- Supports evolving IEEE 802.3 and OIF-224G electrical standards
- Provides support for 4 x 400G, 2 x 800G, and 1.6T Ethernet rates using 112Gbps and 224Gbps SerDes
- Meets performance criteria for chip-to-chip, chip-to-module, and long reach copper/backplane interconnects
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HBM3 PHY V2 (Hard) - TSMC N3P
- Supports 2.5D-based JEDEC standard HBM3 DRAMs with data rates up to 9600 Mbps
- 16 independent 64-bit memory channels
- Pseudo-channel operation supported to enable up to 32 32-bit pseudo-channels with 1024-bit PHY
- Supports up to 4 trained frequencies with <5us switching time
UCIe Controller IP View All
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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)
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UCIe PHY & D2D Adapter
- 32Gbps UCIe-Advanced (UCIe-A) & Standard (UCIe-S)
- UCIe v1.1 specification
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2-16Gbps Multi-Protocol IO Supporting BOW, OHBI and UCIe
- Efficiency
- Composability
- Programmability
PCIe 7.0 IP View All
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PCIe 7.0 Controller with AXI
- Optimized for high-bandwidth efficiency at data rates up to 128 GT/s
- Scalable data path
- Advanced PIPE modes and port bifurcation
- Supports multiple virtual channels (VCs) in FLIT and non-FLIT modes
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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
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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
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RISC-V CPU IP
- RISC-V RVA23 Compliant
- >18 SPECint2006/GHz
- 8-wide decode unit
- Advanced branch predictor
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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
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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.
MIPI IP View All
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MIPI C-PHY/D-PHY Combo CSI-2 RX+ IP (6.0Gsps/trio, 4.5Gbps/lane) in TSMC N6
- Dual mode PHY Supports MIPI Alliance Specification D-PHY v2.5 & C-PHY v2.0
- Consists of 1 Clock lane and 4 Data lanes in D-PHY mode
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MIPI CSI-2 controller Receiver v 2.1, Compatible with MIPI C-PHY v1.2 & DPHY v2.1.
- Fully compliant to MIPI standard
- Small footprint
- Code validated with Spyglass
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MIPI D-PHY IP for TSMC (5nm, 6/7nm, 12/16nm, 22nm, 28nm, 40nm)
- Compliant to MIPI Alliance Standard for D-PHY specification Version 2.1, 1.2, 1.1
- Supports standard PHY transceiver compliant to MIPI Specification
- Supports standard PPI interface compliant to MIPI Specification
- Supports synchronous transfer at high speed mode with a bit rate of 80-2500 Mb/s
RISC-V IP View All
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32b/64b RISC-V 5-stage, scalar, in-order, Application Processor. Linux and multi-core capable. Maps upto ARM A-35. Optimal PPA.
- 32/64 Bit RISC-V core
- 5-stage pipeline
- In-order, Single issue
- Multicore Capable (up to 8 cores)
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Dual-issue Linux-capable RISC-V core
- 64-bit RISC-V core
- RVA22 profile
- Linux capable
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RISC-V high performance CPU
- Aggressive eight-wide deep out-of-order pipeline
- Unique 512KB IL2(I-cache) with DL1/DL2 (512KB) split vs unified 1MB L2