SiLUX Technologies Teams Up with Cambridge Industries Company to Launch its 800G SiPh Optical Engine During Optical Fiber Communication 2024 Conference

Fully validated design accelerates customer time to market for 800G pluggable transceivers in hyperscale Data centers

Shanghai, March.21, 2024 – SiLUX Technologies Inc. (“SiLUX”), the designer and developer of silicon Photonic Integrated Circuits (PICs) and optical engines for the data center and telecommunication markets, today announced that it will conduct a live demonstration of its 800G optical engine in collaboration with its partner, CIG SHANGHAI CO., LTD.(“CIG”), featuring both QSFP-DD800 and OSFP800 form factors. The live demonstration will take place at Booth #2213 during the upcoming OFC’24 Conference in San Diego, CA from March 26th to 28th, 2024.

The 800G optical transceiver modules demoed by CIG are integrated with SiLUX’s novel high performance silicon photonics (SiPho) optical engine, which incorporates SilUX’s Silicon Photonic Modulator PIC with a small size of 5.5mmx5.5mm and two continuous wave (CW) lasers that each supports four lanes. The 800G Sipho Modulator PIC monolithically integrates multiple modulators, splitters, waveguides and coupling structures, enabling high-speed modulation of light operating at 100Gb/s PAM4 signaling for data transmission.

“We are delighted to collaborate with SiLUX for this critical live demonstration, which represents a key milestone for both companies,” said Mr. Fengyong Han, Vice President of Marketing and Sales of CIG. “Future 800G optical transceivers reply on silicon photonics to address the growing demand for high capacity and energy efficiency at a reduced cost. SiLUX’s up to date silicon PICs effectively cater to these requirements, empowering the customers to expedite time to market significantly.”

The demonstrated 800G DR8 Sipho transceivers exceed the optical interface specifications of IEEE P802.3df D2.0 for 800GBASE-DR8 significantly. The eye diagram is showed as below.

SiLUX is thriving to bring high reliability and compelling cost per bit solution to its customers worldwide. The fully integrated PICs designed by SiLUX will result in lower cost and the ability to rapidly scale production. With these advantages, SiPho technologies from SiLUX will be a very competitive choice for 800G application and the potential in 1.6T and beyond. They will continuously catch the attention of leading systems companies and hyperscale data centers all over the world together with its customers.

About SiLUX
Silux Technologies Co., Ltd. (SiLUX), a Chinese company located in Shanghai, China, is focusing on silicon-photonics-based technologies, providing a wide variety of PICs (photonic integrated circuits) for the AI cluster, data center and tele-communication markets. SiLUX also offers optical engines/solutions to customers with leading edge technologies both on chip’s performance and ease of packaging. At SiLUX, we are committed to consistently striving to helping our customers achieve high speed, high quality and cost-effective network solutions with innovative silicon photonics technologies. More information is available at www.siluxtek.com.

About CIG
Established in 2006, CIG is a global industry leader with subsidiaries in China, USA, Japan, Germany and Malaysia. CIG’s unique combination of expertise in industry leading R&D and cutting edge manufacturing allows the company to supply millions of devices annually, while delivering superior customer service globally focusing on a broad product portfolios including optical modules, wireless and broadband access, carrier Ethernet and edge computing, more information is available at www.cigtech.com.

This news release contains “forward-looking information” (within the meaning of applicable China securities laws) and “forward-looking statements” (within the meaning of the U.S. Private Securities Litigation Reform Act of 1995). Such statements or information are identified with words such as “anticipate”, “believe”, “expect”, “plan”, “intend”, “potential”, “estimate”, “propose”, “project”, “outlook”, “foresee” or similar words suggesting future outcomes or statements regarding any potential outcome. Such statements include the Company’s expectations with respect to the success of the Company’s product development efforts, the performance of its products, the expected results of its operations, meeting revenue targets, and the expectation of continued success in the financing efforts, the capability, functionality, performance and cost of the Company’s technology as well as the market acceptance, inclusion and timing of the Company’s technology in current and future products.

Such forward-looking information or statements are based on a number of risks, uncertainties and assumptions which may cause actual results or other expectations to differ materially from those anticipated and which may prove to be incorrect. Assumptions have been made regarding, among other things, management’s expectations regarding the success and timing for completion of its development efforts, financing activities, future growth, recruitment of personnel, opening of offices, the form and potential of its joint venture, plans for and completion of projects by the Company’s third-party consultants, contractors and partners, availability of capital, and the necessity to incur capital and other expenditures. Actual results could differ materially due to a number of factors, including, without limitation, the failure of its products to meet performance requirements, lack of sales in its products, once released, operational risks in the completion of the Company’s anticipated projects, lack of performance of its joint venture, delays in recruitment for its newly opened operations or changes in plans with respect to the development of the Company’s anticipated projects by third-parties, risks affecting the Company’s ability to execute projects, the ability of the Company to generate sales for its products, the ability to attract key personnel, and the ability to raise additional capital. Although the Company believes that the expectations reflected in the forward-looking information or statements are reasonable, prospective investors in the Company’s securities should not place undue reliance on forward-looking statements because the Company can provide no assurance that such expectations will prove to be correct. Forward-looking information and statements contained in this news release are as of the date of this news release and the Company assumes no obligation to update or revise this forward-looking information and statements except as required by law.

[2023]SiLUX Technologies Teams Up with Source Photonics to Launch its 800G SiPh Optical Engine During Optical Fiber Communication 2023 Conference

Fully validated design accelerates customer time to market for 800G pluggable transceivers in hyperscale Data centers

Shanghai, March.02, 2023 – SiLUX Technologies Inc. (“SiLUX”), the designer and developer of silicon Photonic Integrated Circuits (PICs) and optical engine for the data center and telecommunication markets, today announced that it will conduct a live demonstration of its 800G optical engine together with its partner Source Photonics Inc. (“Source”) in QSFP-DD800 form factor. The live demonstration will take place at booth #3029 during the upcoming OFC’23 Conference in San Diego, CA from March 7 – 9, 2023.

The 800G optical transceiver module owned by Source Photonics is integrated with SiLUX’s novel high performance silicon photonics (SiPho) optical engine, which incorporates SilUX’s Silicon Photonic Modulator PIC with a small size of 6.5mmx5.25mm and two continuous wave (CW) lasers that each supports four lanes. The 800G Sipho Modulator PIC monolithically integrates multiple modulators, splitters, waveguides and coupling structures, and enables high-speed modulation of light operating at 100Gb/s PAM4 signaling for data transmission.

The demonstrated 800G DR8 Sipho transceivers are designed to work seamlessly with Source Photonics’ industrial leading CW laser chips. It exceeds the optical interface specifications of IEEE P802.3df D2.0 for 800GBASE-DR8. It supports links over 500m and 2km for fiber breakout into 100GBASE-DR1 and 100GBASE-FR1. It leverages the state of the art 5nm DSP silicon and is packaged into type 2 QSFP-DD800 form-factor with dual MPO-12 connectors.


“We are happy to team up with SiLUX for this critical live demonstration, which represents a key milestone for each company,” said Dr. Frank Chang, Chief Engineer and CTO of Source Photonics Inc. “Future 800G optical transceivers reply on silicon photonics to address the increasing need for high capacity density and energy efficiency at lower cost. Together with our partners in the industry, we are thrived to bring high reliability and compelling cost per bit solution to our customers worldwide. The fully integrated PICs designed by SiLUX will result in lower cost and the ability to rapidly scale production. With these advantages, SiPho technologies will remain a very competitive choice for 800G application and the potential in 1.6T and beyond, and will continuously catch the attention of leading systems companies and hyperscale data centers all over the world.”

About Silux Technologies Co., Ltd.
Silux Technologies Co., Ltd. (SiLUX) is a Chinese company located in Shanghai, China. SiLUX is focusing on silicon-photonics-based technologies, providing a wide variety of PICs (photonic integrated circuits) for the data center and tele-communication markets. SiLUX also offers optical engines/solutions to customers with leading edge technologies both on chip’s performance and ease of packaging. The solutions will enable customer to develop silicon photonics-based products quickly and easily improving time to market and component costs. At SiLUX, we are committed to consistently striving to helping our customers achieve high speed, high quality and cost-effective network solutions with innovative silicon photonics technologies. More information is available at www.siluxtek.com.

About Source Photonics Inc.
As a leading global provider of innovative and reliable technology solutions for communications and data connectivity, we add value to our customers by developing next-generation solutions that enable their growth by meeting the rapidly increasing demands of cloud infrastructure, wireless communications, routing, and fiber-to-the-premises applications worldwide. Through lean management, manufacturing, and our Source Lean Quality (SLQ) system, we run our world-class operation at maximum efficiency, identifying and eliminating waste in our processes to create more value for our customers. Our technical expertise in R&D runs deep with manufacturing process development expertise and highly specialized engineering teams based around the globe — experts in optoelectronic devices, optical subassembly, and module design. Source Photonics is headquartered in West Hills, CA and has key R&D and manufacturing facilities in California, Taiwan, Shanghai, Chengdu, and Jintan, China. More information may be obtained at www.sourcephotonics.com.

This news release contains “forward-looking information” (within the meaning of applicable China securities laws) and “forward-looking statements” (within the meaning of the U.S. Private Securities Litigation Reform Act of 1995). Such statements or information are identified with words such as “anticipate”, “believe”, “expect”, “plan”, “intend”, “potential”, “estimate”, “propose”, “project”, “outlook”, “foresee” or similar words suggesting future outcomes or statements regarding any potential outcome. Such statements include the Company’s expectations with respect to the success of the Company’s product development efforts, the performance of its products, the expected results of its operations, meeting revenue targets, and the expectation of continued success in the financing efforts, the capability, functionality, performance and cost of the Company’s technology as well as the market acceptance, inclusion and timing of the Company’s technology in current and future products.

Such forward-looking information or statements are based on a number of risks, uncertainties and assumptions which may cause actual results or other expectations to differ materially from those anticipated and which may prove to be incorrect. Assumptions have been made regarding, among other things, management’s expectations regarding the success and timing for completion of its development efforts, financing activities, future growth, recruitment of personnel, opening of offices, the form and potential of its joint venture, plans for and completion of projects by the Company’s third-party consultants, contractors and partners, availability of capital, and the necessity to incur capital and other expenditures. Actual results could differ materially due to a number of factors, including, without limitation, the failure of its products to meet performance requirements, lack of sales in its products, once released, operational risks in the completion of the Company’s anticipated projects, lack of performance of its joint venture, delays in recruitment for its newly opened operations or changes in plans with respect to the development of the Company’s anticipated projects by third-parties, risks affecting the Company’s ability to execute projects, the ability of the Company to generate sales for its products, the ability to attract key personnel, and the ability to raise additional capital. Although the Company believes that the expectations reflected in the forward-looking information or statements are reasonable, prospective investors in the Company’s securities should not place undue reliance on forward-looking statements because the Company can provide no assurance that such expectations will prove to be correct. Forward-looking information and statements contained in this news release are as of the date of this news release and the Company assumes no obligation to update or revise this forward-looking information and statements except as required by law.

[2022]SiLUX Technologies announced 400G solution — Silicon modulator chip with low dissipation

Recently, SiLUX Technologies Co., Ltd., (“SiLUX Technologies”) announced that its own silicon modulator chip, can greatly reduce the power consumption of the optical module with less than 7.6W at standard full range of temperature. It provides a new solution for increasingly severe power consumption issue in data center market, meanwhile, it’s also a great milestone that “SiLUX” achieved on technology innovation.
The solution with its outstanding low power consumption and modulator performance has already passed clients qualified test and wined orders.

400 G Solution Eye Diagram

Given the development of the Internet and 5G, the optical transmission market keeps rapidly growing. Meanwhile, technical iteration and innovation become even faster, especially with the rapid construction of Mega DC worldwide. In recent years, the internal transmission distance of DC continues expanding, and the requirement of large broadband has become increasingly urgent. Shifting to 400G/800G is progressively deployed. Furthermore, benefit from silicon technology that enabling many discrete optical device to be massively integrated into one chip, greatly advantages 400G/800G (and above) market as prioritized option applying in high-speed scenario.

SiLUX Technologies aims on industrialization of silicon photonics technology and total solution providing. The 400G solution with low consumption launching fully demonstrates the huge advantage that SiLUX strives in target market. SILUX will continuously dedicate in silicon photonics industry with rapid product development and speedy revenue growth.

[2021]SiLUX Technologies announced new product launched — Silicon Photonics DR4 (4*100G), aims to the market of 400G data center

Recently, SiLUX Technologies Co., Ltd. (“SiLUX Technologies”) newly developed integrated silicon photonics DR4 chip (4*100G) with its advanced silicon photonics technology, enabling the high-speed transmission in QSFP-DD optical module. It greatly empowers SiLUX product family, strengthens its solution provided for Data Center (“DC”) market with cost-effective PICs on DR1/DR4/FR4.

SiLUX Technologies also aligns with high-speed circuit strategic partner to conduct the new product co-demo during CIOE (September 16 – 18, 2021), which presents a complete solution through dynamic display in the form of 400G QSFP-DD optical module, fully demonstrates the PICs performance to meet actual customer requirement.

DR4 Eye Diagram

The new product adapts SiLUX silicon optical chip, equipping with the driver from IC partner as well as other supporting link design, realized 400G high-speed transmission application in DC successfully.

Comparing with traditional solution, silicon optical chip has advantages in high integration, cost-effective and ease on mass production. Packaging and manufacturing effortlessly all benefit from its unique design structure, perfectly fitting in high-speed multi-channel application scenarios.

DC becomes the application scenarios with the fast technologies update in optical communication and the short product cycle. Given the development of 5G and the Internet, especially with the rapid construction of Mega DC worldwide, the internal transmission distance of DC reaches to 500-2km, and the requirement of large broadband has become increasingly urgent. Shifting to 400G is progressively deployed.

SILUX Technologies aims on industrialization of silicon photonics technology and total solution providing. The new product – DR4 launching is one of series products. SILUX will continuously sustain its leading position in silicon photonics in China with rapid technical development, as well as function optimization on DR8 and other products.