5G IP
5G IP cores ar support advanced wireless communication standards, including high-speed data transfer, low latency, and massive device connectivity, essential for 5G networks. They are ideal for a variety of applications, including mobile devices, IoT, automotive, and smart cities, enabling seamless, high-performance 5G experiences.
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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.
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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
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5G-Advanced Modem IP for Edge and IoT Applications
- PentaG‑Edge is a fully integrated, plug‑and‑play 5G‑Advanced modem IP for IoT/industrial and terrestrial UE applications
- Multiple IoT use cases such as industrial 5G networks, robotics, drones, wearables, XR headsets, broadband CPE, V2X
- Enables rapid creation of custom modem products using an integrated modem solution aligned to 3GPP Rel‑18.
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Modular, high performance 5G NR Layer 1 (PHY) solutions for Non-Terrestrial Network applications
- Complete implementation as per 3GPP standards and O-RAN SCF specifications.
- A full Layer 1 PHY designed and developed by AccelerComm™ using a mixture of hardware and software optimized to meet the needs of satellite vendors.
- Openly Licensable.
- Pre-integrated with AccelerComm™ LDPC and Polar encoder/decoder chains and inherits all the benefits from these highly performant products.
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Polar Encoder / Decoder for 3GPP 5G NR
- The patented polar encoding and decoding IP for the 3GPP New Radio uplink and downlink includes the entire processing chain, to provide quick and easy integration and minimize the amount of extra work needed.
- The polar core uses PC- and CRC-aided SCL polar decoding techniques, in order to achieve compromise-free error correction performance.
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Ka-Band (24 - 33GHz) Zero-IF Transceiver
- The ALTUS28TR is a highly integrated, mmWave, agile transceiver offering high performance and configurability for target applications in an advanced SiGe BiCMOS process technology.
- This silicon intellectual property (SIP) delivers a versatile combination of high performance and low power consumption.
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NTN System Test Bench
- Allows end-to-end testing of NB-IoT NTN system in lab environment.
- supports 3GPP® Release 17 and 18 standards.
- supports LEO transparent or regenerative modes of operation.
- multiple-instancing and virtualisation to simulate UE community.
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NTN eNodeB System Test Bench
- Allows end-to-end testing of NB-IoT NTN system in lab environment.
- supports 3GPP® Release 17 and 18 standards.
- supports LEO transparent or regenerative modes of operation.
- multiple-instancing and virtualisation to simulate UE community.
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LDPC Encoder / Decoder for 3GPP 5G NR
- The LDPC decoder product suite has been specifically designed as flexible IP to address the unique challenges of 5G NR across all use cases covered by the current standards, deliver market leading performance and efficiency, and be easily integrated into designs.
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LDPC Decoder for 5G NR and Wireless
- The 5G NR LDPC Decoder IP Core offers a robust solution for LDPC decoding, featuring a dedicated LDPC decoder block for optimal performance.
- It employs the Min-Sum LDPC decoding algorithm to ensure efficient decoding.
- The core allows for programmable internal bit widths at compile time, though the default values are usually sufficient.
