Latest news with #EricssonSilicon
Time of India
6 days ago
- Business
- Time of India
Ericsson to add 150 roles at Bengaluru R&D team, expand ASIC development capabilities
NEW DELHI: Swedish telecom gear maker Ericsson Thursday said it is expanding its Bengaluru research and development (R&D) team by adding 150 roles to enhance its application-specific integrated circuit (ASIC) development. 'This strategic move underscores Ericsson's commitment to enabling India to be at the forefront of future communication technology,' Ericsson said in a statement. Nitin Bansal , managing director, Ericsson India, said that expanding ASIC R&D in India will enable the vendor to leverage the local technology competence in the country towards enhancing capabilities in semiconductor design. 'This unit will also contribute towards strengthening the semiconductor ecosystem in the country. Ericsson expects to initially grow its R&D team in India by more than 150 positions,' Bansal said. 'By increasing our focus on ASIC development , we are reinforcing our technological prowess. Our investments in the Ericsson Silicon platform, in particular, will accelerate the launch of new products and innovative features to the market,' said Anna Dicander, vice president of radio & transport engineering, Ericsson Business Area Networks. The R&D expansion in India will enhance Ericsson's portfolio, and contribute to programmable networks. 'Ericsson Silicon plays a crucial role in creating high-performing, energy-efficient, and lightweight products suitable for various deployment scenarios,' Dicander said. Ericsson Silicon's range of System on a Chip (SoC) is specifically designed for mobile networks and integrated across the entire Ericsson radio portfolio, including RAN Compute (basebands), radio, and transport. This integration enables service providers to fully leverage 5G and address both current and future needs.
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Business Standard
6 days ago
- Business
- Business Standard
Ericsson expands footprint with R&D unit in Bengaluru, to add 150 positions
Swedish telecom gear maker Ericsson on Thursday said it has set up a dedicated Application-Specific Integrated Circuit (ASIC) development unit in Bengaluru, expanding its R&D presence in the country, and plans to add more than 150 positions. Ericsson India MD Nitin Bansal said expanding ASIC R&D in India will allow the firm to leverage the local technology competence in the country and enhance its capabilities in semiconductor design. "This unit will also contribute towards strengthening the semiconductor ecosystem in the country. Ericsson expects to initially grow its R&D team in India by more than 150 positions," he said. This expansion aligns with Ericsson's strategy to advance its portfolio, particularly through its Ericsson Silicon platform, which is central to creating high-performing, energy-efficient products for mobile networks, the company said in a statement. Ericsson Silicon's range of System on a Chip (SoC) is designed for mobile networks and integrated across the entire Ericsson Radio System, enabling service providers to fully leverage 5G and address both current and future needs. With R&D centres in Chennai, Bengaluru, and Gurugram, Ericsson's India operations span across telecom domains, including Transport, Packet Core, OSS, BSS, Cloud, and advanced AI technologies.
Time of India
7 days ago
- Business
- Time of India
Ericsson to add 150+ R&D roles in Bengaluru to boost chip design for 5G networks
Swedish network equipment maker Ericsson is expanding its research and development (R&D) team in Bengaluru by more than 150 positions to enhance its capabilities in Application-Specific Integrated Circuit (ASIC) development. The R&D expansion in India will serve to enhance Ericsson's portfolio of high-performing programmable networks. The team will work on developing Ericsson Silicon's range of System on Chips (SoC) for use in network technologies to fully leverage 5G and address both current and future needs, the company said in a statement Thursday. 'Expanding our ASIC R&D in India will enable us to leverage the local technology competence in the country towards enhancing our capabilities in semiconductor design. This unit will also contribute towards strengthening the semiconductor ecosystem in the country," said Nitin Bansal, managing director, Ericsson India. The company has multiple R&D sites in India, including in Chennai, Bengaluru, and Gurugram that work across telecom domains spanning Transport, Packet Core, OSS, BSS, Cloud and advanced AI technologies. Ericsson invests $5 billion in R&D annually, it added. It though didn't specify the investments to be made for the latest expansion in India. Live Events "By increasing our focus on ASIC development , we are reinforcing our technological prowess. Our investments in the Ericsson Silicon platform , in particular, will accelerate the launch of new products and innovative features to the market.' said Anna Dicander, Vice President, Radio and Transport Engineering, Ericsson Business Area Networks.
Zawya
20-02-2025
- Business
- Zawya
Ericsson unveils new wave of radio, antenna, and RAN Connect products to advance high-performing programmable networks
The innovations will reduce energy consumption by up to 30 percent, lower operational costs, and cut embodied carbon footprint by up to 50 percent, supporting more efficient network deployments The company is on track to offer 130 radio products supporting open and programmable networks during 2025, ensuring flexibility, scalability, and future-proof network evolution As telecoms industry engagement with high-performing programmable networks ramps up globally, Ericsson (NASDAQ: ERIC) is meeting related future needs through a significant product portfolio boost. Ahead of Mobile World Congress (MWC) 2025 in Barcelona, the company is introducing innovative new radios, antennas, and open fronthaul solutions called RAN Connect designed to empower communications service providers (CSPs). With its enhanced portfolio, Ericsson is set to offer 130 radio products supporting open and programmable networks during 2025, outpacing the competition. These products will make up more than two thirds of the company's deliveries this year, providing CSPs with the programmability and future-proof network evolution necessary to stay ahead in the industry. Programmability leverages Ericsson's many-core architecture and extensive sleep modes within Ericsson Silicon to implement intents such as energy savings without compromising customer experience. The portfolio enhancements are led by the flagship product, AIR 3266, a wide-band TDD (Time Division Duplexing) Massive MIMO (Multiple Input, Multiple Output) radio with 400W output power in an ultra-slim design. AIR 3266 boosts spectral efficiency and uplink performance, while reducing energy consumption by up to 30 percent and embodied carbon footprint by up to 50 percent. It is powered by the latest Ericsson Silicon and features 32-branch transceivers. Ericsson is also introducing RAN Connect, a set of transformative, open fronthaul solutions that maximize scalability and efficiency. They allow CSPs to aggregate radio traffic, unlocking the full potential of modern RAN Compute capabilities, and reinforces Ericsson's leadership in next-generation RAN evolution. Key products include RAN Connect 6381, an all-outdoor solution supporting 600Gbps capacity with high scalability and efficiency; RAN Connect 6682, a high capacity fronthaul solution with up to 1.2 terabits per second (Tbps) throughput, ideal for large-scale deployments; and RAN Connect 6681, a versatile 600Gbps indoor option optimized for a wide range of interface configurations. Mårten Lerner, Head of Product Area Networks at Ericsson, says: 'With 5G expected to carry 80 percent of total mobile data traffic by the end of 2030, we see an industry need for 5G equipment that strikes the perfect balance between superior performance, best-in-class TCO, and unmatched sustainability. The ultra-light radios simplify deployment, and the interleaved antennas optimize site usage by integrating multiple M-MIMO frequency bands. 'With cutting-edge hardware designs, we are reducing costs and maximizing efficiency for our customers as they evolve their architectures to deliver high-performing programmable networks that cover all connectivity needs,' Lerner adds. 'Sustainability is also central to every solution, leveraging energy-efficient designs, recyclable materials, and passive cooling to meet Net Zero targets. These advancements embody the artistry of network evolution.' Next-generation radios The portfolio is further enhanced with more radios, including: AIR 3285: a dual-band FDD Massive MIMO radio that offers up to four times higher uplink capacity than traditional 4 transceiver solutions. Field measurement also shows that FDD M-MIMO supports offloading of TDD mid-band and FDD low-band, enhancing overall network performance. Weighing only 30kg, this radio is the lightest in its class, resulting in easier and less time-consuming installation. It reduces energy consumption by 30 percent and has a 40 percent smaller embodied carbon footprint. AIR 6494 and AIR 3265: AIR 6494 is a next-gen wideband TDD Massive MIMO radio with 64-branch wideband transceivers and 480W output power. It cuts energy use by up to 30 percent. The next-gen AIR 3265 is an ultra-light, ultra-slim 32-branch radio that offers high EIRP (Effective Isotropic Radiated Power), 25 percent energy savings, and 30 percent reduced embodied carbon. Both radios are powered by Ericsson Silicon. Radio 4451HP and Radio 4491: Advanced FDD radios that set new standards for performance, efficiency, and sustainability. Radio 4451HP is compact and wideband, reducing size, weight, and energy use by 20 percent, and cutting embodied carbon by 25 percent compared to its predecessor. Radio 4491 delivers 720W output power in a lightweight 30kg design, using 20 percent less energy and 40 percent less embodied carbon. Ericsson is also introducing the following next-generation innovations: Indoor Fusion Unit 8828: Enables gigabit speeds indoor 5G in one compact hardware solution for small and medium-size enterprises. The enhanced 8828 supports multiple operators, and offers double the coverage, extending up to 8,000 square meters (80,000 square feet), and can connect up to eight Radio Dots. Interleaved Antenna 8001 and 8002: Combines low-band FDD with Massive MIMO TDD and FDD in a single antenna footprint for easy installation and reduced site rental costs, with upgradable interleaved passive antenna technology, full transparency, and modularity. New Antenna System portfolio: Precisely engineered antennas to empower high-performing, energy-efficient networks. The new antennas enable superior coverage, 15 percent higher uplink throughput, and up to 29 percent reduced radio output power. The flagship Antenna 4818 achieves superior energy efficiency with electrical and beam efficiencies of up to 85 percent, combined with exceptional passive intermodulation (PIM) performance, enabling optimized FDD mid-band utilization, improved carrier aggregation, higher modulation and MIMO scheme use. It supports simplified and sustainable deployment thanks to best-in-class wind load, 37 percent lighter weight and 42 percent reduced embodied carbon footprint. Power D620: This programmable Smart DC (Direct Current) distribution system enables efficient remote management of DC power, significantly minimizing the need for on-site interventions. Its dynamic energy slicing capability prioritizes critical services, ensuring extended uptime during critical network events. Also, the zero-watt sleep feature eliminates energy usage during radio sleep intervals, optimizing overall RAN energy efficiency.
Al Bawaba
20-02-2025
- Business
- Al Bawaba
Ericsson unveils new wave of radio, antenna, and RAN Connect products to advance high-performing programmable networks
As telecoms industry engagement with high-performing programmable networks ramps up globally, Ericsson (NASDAQ: ERIC) is meeting related future needs through a significant product portfolio of Mobile World Congress (MWC) 2025 in Barcelona, the company is introducing innovative new radios, antennas, and open fronthaul solutions called RAN Connect designed to empower communications service providers (CSPs).With its enhanced portfolio, Ericsson is set to offer 130 radio products supporting open and programmable networks during 2025, outpacing the competition. These products will make up more than two thirds of the company's deliveries this year, providing CSPs with the programmability and future-proof network evolution necessary to stay ahead in the leverages Ericsson's many-core architecture and extensive sleep modes within Ericsson Silicon to implement intents such as energy savings without compromising customer portfolio enhancements are led by the flagship product, AIR 3266, a wide-band TDD (Time Division Duplexing) Massive MIMO (Multiple Input, Multiple Output) radio with 400W output power in an ultra-slim 3266 boosts spectral efficiency and uplink performance, while reducing energy consumption by up to 30 percent and embodied carbon footprint by up to 50 percent. It is powered by the latest Ericsson Silicon and features 32-branch is also introducing RAN Connect, a set of transformative, open fronthaul solutions that maximize scalability and efficiency. They allow CSPs to aggregate radio traffic, unlocking the full potential of modern RAN Compute capabilities, and reinforces Ericsson's leadership in next-generation RAN products include RAN Connect 6381, an all-outdoor solution supporting 600Gbps capacity with high scalability and efficiency; RAN Connect 6682, a high capacity fronthaul solution with up to 1.2 terabits per second (Tbps) throughput, ideal for large-scale deployments; and RAN Connect 6681, a versatile 600Gbps indoor option optimized for a wide range of interface configurations.Mårten Lerner, Head of Product Area Networks at Ericsson, says: 'With 5G expected to carry 80 percent of total mobile data traffic by the end of 2030, we see an industry need for 5G equipment that strikes the perfect balance between superior performance, best-in-class TCO, and unmatched sustainability. The ultra-light radios simplify deployment, and the interleaved antennas optimize site usage by integrating multiple M-MIMO frequency bands.'With cutting-edge hardware designs, we are reducing costs and maximizing efficiency for our customers as they evolve their architectures to deliver high-performing programmable networks that cover all connectivity needs,' Lerner adds. 'Sustainability is also central to every solution, leveraging energy-efficient designs, recyclable materials, and passive cooling to meet Net Zero targets. These advancements embody the artistry of network evolution.'Next-generation radiosThe portfolio is further enhanced with more radios, including:AIR 3285: a dual-band FDD Massive MIMO radio that offers up to four times higher uplink capacity than traditional 4 transceiver solutions. Field measurement also shows that FDD M-MIMO supports offloading of TDD mid-band and FDD low-band, enhancing overall network performance. Weighing only 30kg, this radio is the lightest in its class, resulting in easier and less time-consuming installation. It reduces energy consumption by 30 percent and has a 40 percent smaller embodied carbon footprint. AIR 6494 and AIR 3265: AIR 6494 is a next-gen wideband TDD Massive MIMO radio with 64-branch wideband transceivers and 480W output power. It cuts energy use by up to 30 percent. The next-gen AIR 3265 is an ultra-light, ultra-slim 32-branch radio that offers high EIRP (Effective Isotropic Radiated Power), 25 percent energy savings, and 30 percent reduced embodied carbon. Both radios are powered by Ericsson 4451HP and Radio 4491: Advanced FDD radios that set new standards for performance, efficiency, and sustainability. Radio 4451HP is compact and wideband, reducing size, weight, and energy use by 20 percent, and cutting embodied carbon by 25 percent compared to its predecessor. Radio 4491 delivers 720W output power in a lightweight 30kg design, using 20 percent less energy and 40 percent less embodied is also introducing the following next-generation innovations:Indoor Fusion Unit 8828: Enables gigabit speeds indoor 5G in one compact hardware solution for small and medium-size enterprises. The enhanced 8828 supports multiple operators, and offers double the coverage, extending up to 8,000 square meters (80,000 square feet), and can connect up to eight Radio Antenna 8001 and 8002: Combines low-band FDD with Massive MIMO TDD and FDD in a single antenna footprint for easy installation and reduced site rental costs, with upgradable interleaved passive antenna technology, full transparency, and Antenna System portfolio: Precisely engineered antennas to empower high-performing, energy-efficient networks. The new antennas enable superior coverage, 15 percent higher uplink throughput, and up to 29 percent reduced radio output power. The flagship Antenna 4818 achieves superior energy efficiency with electrical and beam efficiencies of up to 85 percent, combined with exceptional passive intermodulation (PIM) performance, enabling optimized FDD mid-band utilization, improved carrier aggregation, higher modulation and MIMO scheme use. It supports simplified and sustainable deployment thanks to best-in-class wind load, 37 percent lighter weight and 42 percent reduced embodied carbon footprint. Power D620: This programmable Smart DC (Direct Current) distribution system enables efficient remote management of DC power, significantly minimizing the need for on-site interventions. Its dynamic energy slicing capability prioritizes critical services, ensuring extended uptime during critical network events. Also, the zero-watt sleep feature eliminates energy usage during radio sleep intervals, optimizing overall RAN energy efficiency.
