The Pulse
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The SoC design: What’s next for NoCs?
2025-01-24T16:35:00+01:00
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Minima qualifies to join Arm Flexible Access Program to bring the Minima Chip to Life
2025-01-24T09:13:00+01:00
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Revolutionizing Power Efficiency in PCIe 6.x: L0p and Flit Mode in Action
2025-01-24T08:41:00+01:00
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Chips&Media Collaborates with Samsung, Google, and Qualcomm to Develop APV Video Codec Ecosystem
2025-01-24T08:36:00+01:00
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ARM boost in $100bn Stargate data centre project
2025-01-24T07:41:00+01:00
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PQShield announces participation in NEDO program to implement post-quantum cryptography across Japan
2025-01-23T12:22:00+01:00
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Streamlining SoC Design with IDS-Integrate™
2025-01-23T11:41:00+01:00
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HighTec C/C++ Compiler Suite Supports Nuclei System Technology’s RISC-V IP for High Safety and Security Applications in Automotive
2025-01-23T09:29:00+01:00
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Andes Technology D45-SE Processor Achieves ISO 26262 ASIL-D Certification for Functional Safety
2025-01-23T08:51:00+01:00
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VeriSilicon and Innobase collaboratively launched second-generation Yunbao series 5G RedCap/4G LTE dual-mode modem IP
2025-01-23T08:04:00+01:00
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MediaTek Adopts AI-Driven Cadence Virtuoso Studio and Spectre Simulation on NVIDIA Accelerated Computing Platform for 2nm Designs
2025-01-22T17:09:00+01:00
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MIPI Alliance Announces Board Leadership Appointments
2025-01-22T15:31:00+01:00
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Livelocks And Deadlocks In NoCs
2025-01-22T11:50:00+01:00
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Sequans Acquires Zurich-based ACP
2025-01-22T08:15:00+01:00
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Linearity Analysis of Source-Degenerated Differential Pairs for Wireline Applications
2025-01-22T07:52:00+01:00
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Cadence to Acquire Secure-IC, a Leader in Embedded Security IP
2025-01-21T15:43:00+01:00
The Semiconductor IP Marketplace that puts you first
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Spotlight
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8-stage superscalar processor that supports ISO 26262 ASIL (Automotive Safety Integrity Level) -D level functional safety for automotive applications
- 32-bit in-order dual-issue 8-stage pipeline CPU architecture
- AndeStar™ V5 Instruction Set Architecture (ISA)
- 16/32-bit mixable instruction format for compacting code density
- Advanced low power branch predication to speed up control code
- Return Address Stack (RAS) to accelerate procedure returns
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Universal PHY
- Novel Redundancy for Hi-Rel,
- Support for 16&18-bit wide data,
- Support Synchronous Operation,
- Supports Advanced packaging,
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Fixed Point Doppler Channel IP core
- Support for orbital heights (h) in the range from 200 to 2000 km
- Support for carrier frequencies ( fc) in the range from 137 to 2200 MHz
- Support for sample frequencies ( fs) in the range from 500 Ksps to 500 Gsps
- Support variations in the initial elevation angle due to different latitudes, obstructions in the visibility region, and regulatory requirements
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Multi-protocol wireless platform integrating Bluetooth Dual Mode, IEEE 802.15.4 (for Thread, Zigbee and Matter)
- Full Bluetooth dual mode (Classic and LE) support, including next generation High Data Throughput up to 7.5Mbps for lossless multichannel low latency audio streaming.
- IEEE 802.15.4 support, for Zigbee, Thread and Matter
- Comprehensive Integration: Includes RF, modem, controller, software stacks, and profiles.
- Advanced Audio Support: Supports Classic Audio, LE Audio, and Auracast Broadcast Audio.
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
- High Bandwidth Density and Data Rates
- Package Configurability
- Energy Efficiency
- Fully Integrated Solution
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