LESSENGERS Inc., a leading provider of cutting-edge optical components, is set to unveil its groundbreaking portfolio of 800G optics specifically designed for AI/ML workloads in hyperscale data centers. The company’s innovative optical solutions, built on its patented “direct optical wiring” (DOW) technology, bring a new era of efficiency and performance to the industry.
One of the key additions to Lessengers’ 800G transceiver product lineup is the integration of partially retimed capability, which includes an integrated DSP chip on the transmitter side. This feature enables enhanced interoperability with other pluggable transceivers and significantly reduces power consumption by utilizing a half retimer.
Placing a spotlight on their impressive advancements, Lessengers is proud to announce the industry-first 800G OSFP Linear Receive Optical Transceiver at the upcoming OFC 2024 (booth 5200). This groundbreaking product, alongside their existing fully retimed optics, revolutionizes the landscape of AI/ML capabilities.
The remarkable features of Lessengers’ AI/ML product offering, which includes integrated retimer electronics, are as follows:
– Lower power consumption, measuring less than 9 W for an 800G (2 × SR4) OSFP
– IEEE 802.3 and CMIS 5.0 or later compliance
– 8 × 112 Gb/s PAM4 on both the electrical host receiver and optical line transmitter interfaces
– Integration of a half retimer chip in the transmit path for enhanced signal retiming and equalization
All of Lessengers’ products are built upon their patented DOW technology, an air-cladded waveguide solution that utilizes polymer-based materials. This unique technology proves to be exceptionally beneficial for optical interconnects in data centers and high-performance computing environments.
The growing demand for 800G SR8 transceivers in 2023 exceeded all expectations, with over 3 million units projected to be shipped in 2024. Dr. Vladimir Kozlov, CEO and founder of LightCounting Market Research, emphasizes the criticality of improving the power efficiency of optical transceivers to scale AI clusters from tens of thousands to hundreds of thousands of GPUs by 2025-2026. Leading customers are currently evaluating various solutions, including the LPO and HALO designs, for future deployments.
Lessengers CEO, Chongcook Kim, expressed excitement about showcasing their latest advancements in 800G optics at OFC. These advancements are poised to play a pivotal role in optimizing the processing of AI/ML workloads. Lessengers looks forward to collaborating with partners and customers within the hyperscale and supercomputing ecosystems to fully realize the potential of their groundbreaking technologies.
Lessengers will be exhibiting at the Optical Fiber Communications Conference (OFC) in booth 5200 at the San Diego Convention Center from March 26th to 28th, 2024.
FAQ:
Q: What are the key features of Lessengers’ 800G optics portfolio?
A: Lessengers’ 800G optics portfolio offers lower power consumption, IEEE compliance, high-speed data processing, and enhanced signal retiming and equalization capabilities.
Q: What is the significance of Lessengers’ patented DOW technology?
A: Lessengers’ DOW technology is a polymer-based air-cladded waveguide solution, which provides a cost-effective and efficient solution for optical interconnects in data centers and high-performance computing environments.
Q: How are optical transceivers evolving to meet the demands of AI clusters?
A: The power efficiency of optical transceivers is critical for scaling AI clusters. Various designs, including LPO and HALO, are being evaluated by leading customers to improve power efficiency and enhance performance.
Q: Where can I learn more about Lessengers’ advancements in 800G optics?
A: More information about Lessengers and their breakthrough 800G optics portfolio can be found on their official website: www.lessengers.com.
Definitions:
– Optical components: Components used in optical systems, such as lasers, lenses, and detectors, that manipulate light for various applications.
– AI/ML: Artificial intelligence/machine learning, technologies that enable computers to perform tasks that usually require human intelligence.
– Hyperscale data centers: Very large-scale data centers that can accommodate a huge amount of data processing and storage.
– Direct optical wiring (DOW) technology: Lessengers’ patented technology that enables efficient and high-performance optical solutions.
– Transceiver: A device that combines both a transmitter and a receiver in one package for transmitting and receiving data.
– DSP chip: Digital signal processing chip, which processes digital signals for better performance.
– Power consumption: The amount of electrical power used by a device.
– Retimer: A device that reshapes and re-amplifies signals to improve their quality and performance.
– OSFP: Octal small form-factor pluggable, a transceiver form factor used in high-speed optical networks.
– IEEE 802.3: A set of Ethernet standards established by the Institute of Electrical and Electronics Engineers (IEEE).
– CMIS 5.0: Common Management Interface Specification version 5.0, a standard that defines the management of optical transceivers.
– PAM4: Pulse amplitude modulation with four amplitude levels, used to encode data for high-speed data transmission.
– AI/ML workloads: The tasks and operations related to artificial intelligence and machine learning.
– Interoperability: The ability of different systems or components to work together and exchange information seamlessly.
– Landscape: The overall situation or conditions of a particular industry or field.
– Polymer-based materials: Materials derived from polymers, which are large molecules composed of repeating subunits.
– Data centers: Facilities that house computer systems and associated components, such as servers, storage systems, and network equipment, for storing, processing, and managing data.
– High-performance computing environments: Environments that involve the use of powerful computers and advanced computing techniques for complex and demanding tasks.
– Transceivers: Devices that transmit and receive data using optical or electrical signals.
– GPUs: Graphics processing units, specialized chips used to accelerate the processing of graphics and other computationally intensive tasks.
– LightCounting Market Research: A research firm specializing in optical communications markets and technologies.
– Optical interconnects: Connections between optical devices or components through which data is transmitted using light.
– San Diego Convention Center: A large convention center located in San Diego, California.
FAQ:
Q: What are the key features of Lessengers’ 800G optics portfolio?
A: Lessengers’ 800G optics portfolio offers lower power consumption, IEEE compliance, high-speed data processing, and enhanced signal retiming and equalization capabilities.
Q: What is the significance of Lessengers’ patented DOW technology?
A: Lessengers’ DOW technology is a polymer-based air-cladded waveguide solution, which provides a cost-effective and efficient solution for optical interconnects in data centers and high-performance computing environments.
Q: How are optical transceivers evolving to meet the demands of AI clusters?
A: The power efficiency of optical transceivers is critical for scaling AI clusters. Various designs, including LPO and HALO, are being evaluated by leading customers to improve power efficiency and enhance performance.
Q: Where can I learn more about Lessengers’ advancements in 800G optics?
A: More information about Lessengers and their breakthrough 800G optics portfolio can be found on their official website: www.lessengers.com.
The source of the article is from the blog maltemoney.com.br