All IPs > Wireless Communication > 3GPP-LTE
The 3GPP-LTE category of semiconductor IPs is a vital component for modern wireless communication systems. As the world continues to rely on mobile connectivity, Long Term Evolution (LTE), standardized by the 3rd Generation Partnership Project (3GPP), has become an essential technology. This category includes sophisticated IP cores that enable semiconductor manufacturers to design and implement LTE-compatible solutions efficiently, ensuring seamless and robust communication services.
3GPP-LTE semiconductor IPs offer a comprehensive suite of features facilitating high-speed data transfer, low latency, and increased capacity for wireless networks. These IPs are integral in supporting a wide array of services, from voice over LTE (VoLTE) to multimedia streaming and cloud computing. By providing the foundational technology for creating modems, transceivers, and base station components, these IPs are pivotal in enhancing the user experience in smartphones, tablets, and other mobile devices.
Moreover, the designs within this category allow for flexible and scalable deployments across various market segments. With the continuous evolution of LTE, including advancements such as LTE-Advanced and LTE-Advanced Pro, developers find these solutions invaluable for staying ahead in the competitive telecom industry. They enable the efficient integration of multiple input and output antennas (MIMO) and carrier aggregation, thereby maximizing spectral efficiency and network performance.
In this fast-evolving digital landscape, 3GPP-LTE semiconductor IPs are not just about maintaining connectivity; they are about transforming it. These IPs provide the tools necessary for the next wave of innovations in IoT, automotive connectivity, and beyond, ensuring that manufacturers can develop the cutting-edge products required by the demands of today's consumers and industries. Whether for infrastructure or consumer applications, the IPs in this category support the progression and globalization of wireless communication technologies.
The eSi-Comms IP offers parameterizable and configurable solutions for modern air interface standards, such as Wi-Fi, LTE, and DVB. It features advanced DSP algorithms for synchronization, equalization, and modulation, thereby enhancing the robustness of communication links. Suitable for wireless sensor networks, remote metering, and broadcast applications, eSi-Comms delivers efficient transceiver designs optimized for power and area. Supported by C, SystemC, CUDA, and MATLAB libraries, it facilitates swift development and integration into existing systems, ensuring a reduced time-to-market and minimized risk.
AccelerComm's Software-Defined High PHY is an adaptable O-RAN solution, optimized for the ARM processor architecture. This High PHY solution can operate with or without hardware acceleration, tailored to meet various capacity and power specifications. Developed to complement ASIC/SoC products, it supports a wide range of platforms, enhancing performance flexibility and integration simplicity. This solution is particularly beneficial in environments where dynamic computing capabilities are required and is pivotal in ensuring effective network scaling and performance delivery.
The XCM_64X64_A provides a sophisticated architecture featuring 128 ADC 2-bit 1GSps with VGA front ends, designed for cross-correlation applications in NASA projects. Utilizing 45nm IBM SOI CMOS technology, it achieves ultra-low power consumption of approximately 0.5W for the entire array. The structure is geared towards synthetic radar receivers, radiometers, and spectrometers, operating at bandwidths from 10MHz to 500MHz. It integrates seamlessly into systems requiring precise data acquisition and processing, ideal for advanced research and observational instruments. With a focus on low power and high data throughput, the XCM_64X64_A addresses the challenges faced in high-energy physics and observational technology arenas. Its efficient power usage and robust design ensure long-term performance and reliability in demanding applications.
The LTE Lite solution is a versatile PHY product tailored to support a wide range of channel bandwidths and modulation schemes. Compliant with CAT 0/1 PHY specifications, it offers features such as IF input support, time tracking, and frequency correction for enhanced communication clarity and reliability. Designed for synthesizable Verilog-2001, the system integrates easily with external tuners and ADCs, making it a foundational component in efficient LTE communication setups.
The XCM_64X64 represents a complete cross-correlator solution with 64x64 channels, designed to cater to NASA's high-end synthetic radar receivers. Executed using IBM's 45nm SOI CMOS technology, this correlator emphasizes energy efficiency with a total power consumption of approximately 1.5W. It is engineered to support advanced radiometric and spectroscopic applications, with bandwidth capabilities ranging from 10MHz to 500MHz. The array's infrastructure supports precise signal analyses, making it ideal for use in scientific and exploratory sectors. Designed for optimum power-to-performance ratios, the XCM_64X64 excels in environments that demand high data integrity and reliable processing under stringent operational conditions. It is a vital component for synthetic aperture radar systems and other complex observational tools.
The PUSCH Equalizer by AccelerComm is a cutting-edge solution aimed at improving spectral efficiency in 5G NR networks, particularly those involving multiple antenna configurations. It addresses the challenges of noise and interference using advanced equalization algorithms, which are efficiently implemented as hardware accelerations. This product integrates with the PUSCH Decoder, enhancing performance and cost-efficiency by incorporating demodulation and decoding capabilities. Compliant with 3GPP standards, the PUSCH Equalizer offers superior uplink performance, optimized for both FPGA and ASIC platforms, and contributes to faster market deployment for network operators.
The 60GHz Wireless Solution by CLOP Technologies employs the IEEE 802.11ad WiFi standard, also known as the Wireless Gigabit Alliance MAC/PHY specification, to deliver high-speed data transfer. With peak data rates reaching up to 4.6Gbps, it is perfect for complex applications like real-time, uncompressed HD video streaming and high-speed file transfer, improving today’s WiFi speeds tenfold. A key feature of this technology is its support for 802.11ad IP networking, facilitating IP-based tasks such as peer-to-peer communication and router/access point functionalities. It also includes a USB 3.0 host interface for easy connection to hosts and compensates for RF impairments, ensuring robust performance even at high data operations. This product is engineered to handle the substantial data demands of modern IoT devices and provide a competitive advantage through its enhanced wireless data technology. Functioning in the 57GHz to 66GHz frequency band, it uses modulation modes like BPSK, QPSK, and 16QAM. Its FEC coding rates include LDPC 1/2, 5/8, 3/4, and 13/16, with AES-128 hardware security and IEEE 802.11e Real Time QoS to ensure a quality, secured wireless experience.
The High PHY Accelerators from AccelerComm are a suite of IP cores that enhance signal processing capabilities for 5G networks. These accelerators are pivotal in handling complex algorithms like LDPC and Polar, which are essential for channel coding. The range from AccelerComm includes accelerators for ASIC, FPGA, and SoC, each designed to maximize throughput and minimize latency and power consumption. Exploiting patented signal processing algorithms, these accelerators meet the stringent requirements of modern network infrastructures, enhancing spectral efficiency and reducing operational costs.
The hellaPHY Positioning Solution is renowned for its exceptional capabilities in cellular positioning, particularly within massive IoT environments. It leverages the strength of 5G networks to provide scalable, low-cost, positioning services with high precision. PHY Wireless has engineered it to require significantly less data than other solutions, thanks to its unique algorithmic approaches. This reduces network interactions and enhances spectral efficiency, making it an enticing option for operators and developers alike. One of the key components of this solution is its ability to function indoors and outdoors with near GNSS accuracy. By employing edge computing, the position calculations are done locally on devices, protecting user privacy and maintaining tight security on location data. The software’s minimal footprint allows for integration into existing infrastructure, offering backward compatibility and ensuring future readiness. hellaPHY stands out in the realm of positioning technology by achieving unparalleled accuracy, thanks to its efficient data utilization. It supports efficient location tracking in challenging environments, such as urban areas, where traditional GPS might falter. Furthermore, the technology offers the flexibility of over-the-air updates, keeping network utility optimal and guardband costs low through advanced spectral efficiency.
The LDPC IP from AccelerComm is developed for 5G New Radio, providing high-efficiency channel coding and decoding capabilities. This IP delivers robust error correction performance through novel propagation schedules and integrated workflow solutions. It supports AMD, Intel, and Achronix FPGAs, and is optimized for ASIC applications. The LDPC solution achieves quick integration, low latency, and high throughput, crucial for uplink and downlink data channels in modern, dense communication networks.
The PentaG RAN platform is designed for emerging 5G network infrastructure, providing a comprehensive baseband solution for 5G RAN ASICs and Open RAN systems. It is recognized for industry-leading performance and scalability, tailored to meet the rigorous demands of modern communications networks. The platform supports a variety of network configurations and use cases, ensuring the facilitation of seamless communication in both urban and rural settings.
AccelerComm's Polar coding solution is at the forefront of error correction for 5G NR control channels, characterized by its flexibility and efficiency. This patented IP enables high degrees of parallelism in its design, significantly cutting down on resource usage while maximizing performance. It features a detailed polar encoding and decoding chain, integrates smoothly with wider communication systems, and is delivered in various form factors suitable for both ASIC and FPGA platforms. The solution meets all 3GPP standards, ensuring reliable communication with excellent error correction capability, making it vital for maintaining robust connection quality across an array of 5G applications.
Specializing in artificial intelligence and advanced driver-assistance systems, the NI Class processor is engineered for high-performance computing and communication tasks. With an architecture designed for robust functionality and scalability, it supports extensive RISC-V extensions enhancing processing power and flexibility. This processor class is tailored for applications demanding superior computational capabilities and efficient data processing, such as AI-driven analytics and complex communication protocols. The NI Class features a comprehensive suite of development tools and ecosystem resources, ensuring developers can leverage its full capabilities. This includes optimizing performance for machine learning algorithms and sophisticated telecommunication infrastructures, making it indispensable in the era of intelligent systems and devices.
ASPER is NOVELIC's advanced 79GHz short-range radar sensor, crafted to supersede traditional ultrasonic systems. It offers a 180-degree field of view, enabling a 360-degree awareness for vehicles with just four modules. This sensor is pivotal for applications like park assist, collision warning, and blind spot detection. By operating in challenging conditions without performance degradation, it ensures the safety and efficiency of automotive systems.
Palma Ceia's NB-IoT (LTE Cat NB1) Transceiver is designed to meet the stringent requirements of the 3GPP Release 13 standards. This transceiver provides reliable connectivity for narrowband IoT applications, ensuring low power consumption and robust network performance, making it suitable for wide-ranging IoT deployments. The transceiver is versatile, functioning in bands across wide frequency ranges, and is built to sustain operations under varied environmental conditions with high RF efficiency. Its scalable design includes programmable features and interfaces like SPI and UART, allowing easy integration into complex network architectures. Offering enhanced control of both transmit and receive paths, the NB-IoT transceiver supports extended gain ranges and low signal noise, crucial for sustained, reliable IoT network management. Equipped with calibration features for DC offset and IQ imbalance, it enhances connectivity precision and offers seamless integration with FPGA and silicon baseband modules for reliable data throughput.
The Complete 5G NR Physical Layer offered by AccelerComm is a versatile and high-performance solution ideal for specialized applications including O-RAN, satellite, and small-cell networks. This comprehensive suite integrates the High PHY 5G NR product with AccelerComm's Low PHY, providing a robust physical layer IP solution. Designed for performance optimization, it ensures superior power efficiency and spatial resource management, enabling high-capacity communication across diverse hardware platforms. The solution leverages AccelerComm's cutting-edge 5G acceleration technologies coupled with innovative signal processing methods, unlocking unmatched link performance. Openly licensable and adaptable, this IP core is available for software, FPGA, and ASIC environments, ensuring seamless integration and reduced project timelines through early testing on COTS development boards.
The PCS1100 is an advanced Wi-Fi 6E transceiver chip by Palma Ceia SemiDesign. Engineered for use in Wi-Fi 6 networks, it supports the IEEE 802.11ax standard, facilitating high-speed wireless communication in both Access Point (AP) and Station (STA) configurations. Its robust RF architecture is optimized for tri-band operation, covering 2.4 GHz, 5 GHz, and 6 GHz frequency bands, which is essential for modern, high-density environments. This transceiver supports multiple spatial streams up to 4x4 and employs advanced features like MU-MIMO and OFDMA, providing increased throughput and efficiency across congested networks. With capabilities such as dual-band concurrent operation and 1024-QAM modulation, the PCS1100 ensures high performance and reliability, making it ideal for environments ranging from smart homes to large public venues. The PCS1100 also features a compact design suitable for integration into various systems, including ASICs and ASSPs, enhancing its versatility in different technological setups. It offers connectivity and ease of integration with its analog I/Q interface and chip-to-chip communication via SerDes link.
The PentaG2 baseband platform represents Ceva's latest advancements in 5G technology, incorporating robust support for mobile broadband and IoT applications. This platform excels in delivering high performance with flexibility, catering to the increasing demands for data connectivity and speed in mobile devices. With enhanced capabilities for multi-standard operation, it supports a diverse range of applications from commercial consumer electronics to industrial IoT devices.
The 4G/LTE Software Stack offered by Lekha Wireless is designed to empower OEMs in developing advanced 4G telecom network products. Compliant with 3GPP Release 10, these stacks are critical for creating robust radio network solutions across various market segments. The software is rich in features and supports various SoC based platforms, optimized especially for Texas Instruments’ Keystone II architecture. Lekha’s LTE stack is particularly beneficial for those looking to innovate within existing or new network deployments, offering modular code that aligns well with different platform architectures. This flexibility ensures that customers can tailor solutions to their specific network needs while extending coverage and reducing total costs for operators. Furthermore, the LTE WaveGuru Tool Box offers a comprehensive suite for signal generation and analysis, enhancing the capability to develop secure LTE networks. The stack encompasses a detailed plan for upgrades to newer releases, ensuring future-ready technology that can scale with evolving industry standards. This makes Lekha's LTE Solution a strategic asset for those looking to lead in LTE network deployments.
LightningBlu offers a world-first, multi-gigabit track-to-train solution, ensuring uninterrupted on-the-move connectivity. With its deployment in challenging transport environments, this system uses mmWave technology to deliver flawless communication between trackside and train. With a capacity for a robust gigabit train experience, both trackside nodes and train-top equipment are qualified for their environments, ensuring rigorous and efficient data performance. The solution is currently in active use on some of the busiest railways, improving connectivity for all commuters significantly. Its technical prowess lies in its ability to provide an exceptional throughput of up to 3.5 Gbps, operating efficiently to surpass the offerings of traditional mobile networks while ensuring a low carbon footprint.
Vyapi LTE eNodeB is an indigenous 4G solution developed by Lekha Wireless, reflecting the company's commitment to India's self-reliance vision. This product integrates locally developed software stacks with innovative hardware design to deliver secure and expansive LTE network coverage. Vyapi provides comprehensive LTE network infrastructure optimized to reduce total cost of ownership while expanding network reach over large areas. Vyapi is capable of supporting both TDD and FDD bands, with RF power up to 40W, making it adaptable for small cell and macro cell applications. Its integration with various EPC vendors ensures that it can serve commercial telecom networks as well as specialized deployments like private networks and defense communications. Developed to enable both green and brown field deployments, Vyapi assures robust performance across diverse operating conditions with its strong element management system. It represents a turnkey solution for enterprise-level applications, offering enhanced network management capabilities suited to complex use cases.
The Bit Chains offered by Wasiela provide robust LTE and DVB-T2 radio chains that handle varying bandwidths and modulation spectra with ease. Capable of supporting multiple standard configurations, these chains facilitate seamless data reception and processing, enhancing signal integrity and communication reliability. Designed to be adaptable, Bit Chains are integral to the efficient management of diverse communication protocols and data flows.
Wasiela's Diversity IP features advanced MIMO decoding capabilities, focusing on close-to-Maximum-Likelihood (ML) Bit Error Rate (BER) performance. Utilizing fixed depth K-Best decoders, Wasiela's solution supports various MIMO configurations, offering high reliability for multisream communication scenarios. The inclusion of QR Decomposition and the ability to adjust for different quadrature amplitude modulation levels makes it an invaluable asset for robust signal processing applications.