Top Silicon Photonics Companies

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90 companies for Silicon Photonics

OpenLight's Logo


Goleta, United States

11-50 Employees


OpenLight is the world leader in custom, PASIC design and manufacture. This single chip concept vastly reduces manufacturing and assembly costs, by removing less reliable manufacturing processes altogether, such as aligning external lasers to waveguides. Application Specific Integrated Circuits are central to the operation of most of the electronic products and computers used today, optimising performance, cost and efficiency.PASIC’s are the photonic equivalent!Photonic Application Specific Integrated Circuits are central to photonics-based design, both now and in the future, for the same reason as ASICs. OpenLight is bringing PASIC design to the mass market, with its PDK, production services, and a wealth of PASIC support tools, such as Evaluations kits and PDK Samplers. Carter is a semiconductor communications industry veteran, with an impressive, 25-year track record. Kevin is a seasoned and results proven semiconductor and fiberoptics professional with 25 years of experience in global sales and marketing. Kaman was Chief Systems Architect and Director of Product Management at Calient Networks. OpenLight’s inhouse engineers provide custom PASIC design and layout services to help with….


ProductsFlexible, powerful silicon photonics solutions

... ProductsFlexible, powerful silicon photonics ...

Scintil Photonics's Logo

Scintil Photonics

Grenoble, France

1-10 Employees


SCINTIL Photonics is a fabless company that develops and markets silicon photonics with integrated lasers and optical amplifiers, for high speed optical interconnects in Data Centers, HPC and 5/6G infrastructure. Based in Grenoble, France and Toronto, Canada, SCINTIL is currently taking its innovative technology to an industrial level as it gears up for mass production. Delivers 8 or 16 lasers frequencies spaced by 100 GHz/200 GHz and multiplexed on 2 to 4 ports.

Core business


... Photonics, a supplier of silicon photonic integrated circuits augmented ...

Silizios's Logo


Vienna, Austria

- Employees



SILIZIOS Technology | Silicon Photonics

... SILIZIOS Technology | Silicon Photonics ...

Analog Photonics's Logo

Analog Photonics

Boston, United States

11-50 Employees


We are a team of highly motivated and intelligent individuals with a dedication to disruptive innovation. We are always welcoming talented, hardworking, and dynamic engineers, scientists, and business developers. We specialize in the development of photonic circuits for customers worldwide in growing markets such as automotive, industrial, consumer, medical and defense, among others. AP delivers first fully operational Solid State LiDAR Prototype to Tier 1s. We focus on productivity for growth and profitability, and respect for its partners. Analog Photonics is developing disruptive LiDAR and Optical Communications technology built on our proprietary silicon photonics platform to enable a future where people and devices are highly connected, and autonomy is ubiquitous. Data communication – Our optical transceiver engines offer the highest bandwidth density and energy efficiency, addressing the needs in the datacenter and high-performance computing interconnects at an aggregate data rate of 400G-to-3.2Tbps.


The Silicon Photonics PDK

... Interested in The Silicon Photonics Process Design Kit? ...

SiEPIC Kits's Logo


Vancouver, Canada

1-10 Employees


We are silicon photonics engineers, and we created a silicon photonics design house. Leveraging the user-friendly SiEPIC-Tools EPDA platform, we enable advanced process development kits (PDKs) for your fabrication process. SiEPIC Kits will enable access to such services, whether be it rapid prototyping of small volumes using Electron-Beam lithography or CMOS-compatible Deep-Ultraviolet lithography fabrication. We provide packaging services for all our designed prototypes which enables electro-optical interfacing with the designed system. We help you realize innovative solutions using silicon photonics technology. We will collaborate with you through the entire product development cycle for your solution, from component design and simulation, system design and simulation, chip fabrication and manufacturing, control electronics design, testing and validation, and finally, to packaging and deployment of the designed prototype. Please use the options to schedule a meeting with SiEPIC Kits team at your convenience.

Core business



DustPhotonics's Logo


Modiin-Maccabim-Reut, Israel

11-50 Employees


DustPhotonics develops and provides a technology platform for end-to-end Silicon Photonics solutions, addressing the constantly growing needs of hyper-growth data players. DustPhotonics provides a comprehensive technology platform for Silicon Photonics, and works with leading supply chain partners to enable high data rates, lower power, lower cost and high-volume scalability. DustPhotonics provides high-speed modulators and detectors which supports a broad range of wavelengths and high data rates. DustPhotonics offers the optical structures to build your product. DustPhotonics Raises $24M in Series B Follow-on Round. Our technology solutions facilitate high volume manufacturing which enables true scalability. Our technology platform is uniquely built to support the optical networking markets who require higher bandwidth and higher speeds while lowering cost, as well as power consumption. An innovative solution for integrating off the shelf lasers on the Silicon.

Core business

DustPhotonics’ Silicon Photonics Product

... Barriers to Advance Silicon Photonics 800Gb/s 1.6Tb/s and Beyond ...

Neurophos's Logo


Durham, United States

1-10 Employees


At Neurophos, we pioneer a revolutionary approach to AI computation, leveraging the vast potential of light. Neurophos’ technology provides way more compute per dollar spent on capital expenditures (CAPEX) and operating expenditures (OPEX), at the same energy consumption, and reduces the total cost of ownership (TCO) of AI accelerator chips and data centers. Neurophos’ optical metasurfaces are designed for use in data centers and are already shattering world records in computational energy efficiency. Our mission is to deliver AI computation solutions that are not just faster, but denser and more efficient. The discovery of metamaterials has unleashed an enormous burst of creativity, leading to demonstrations of invisibility cloaks, negative refractive index materials, and many other exotic products. Our unique approach combines the best of optical metasurfaces and silicon photonics, offering an AI inference acceleration solution that is poised to reshape the AI landscape.

Core business

Silicon Photonics: Speed Is Key

... Silicon Photonics: Speed Is ...

SiLC Technologies's Logo

SiLC Technologies

Monrovia, United States

11-50 Employees


SiLC Technologies is a silicon photonics innovator delivering coherent vision and chip scale FMCW LiDAR solutions that help machines see like humans. We are bringing forth our deep expertise to advance market deployment of coherent 4D imaging solutions across a wide range of industries – including mobility, industrial machine vision, AI robotics, augmented reality, and consumer applications. At SiLC, we’re on a mission to enable machines to see like humans. We are bringing forth our deep expertise in silicon photonics to advance market deployment of coherent 4D imaging solutions, charting a new course for LiDAR companies. SiLC’s breakthrough chip integrates all photonics functions needed to enable a coherent 4D vision sensor offering a tiny footprint while addressing the need for low-cost and low-power. SiLC has been described as the only company that has a viable approach for large-scale adoption of LiDAR in automotive and industrial robotics. At SiLC we’re on board with you to usher in a better tomorrow. This is one of imaging’s toughest challenges, and we are more than up to the task.


Silicon Photonics Integration | FMCW Lidar on Chip

... Our Silicon Photonics Integration technology provides an affordable, low- ...

Lorentz Solution's Logo

Lorentz Solution

United States

11-50 Employees


The PeakView EM design platform offers a comprehensive total solutions to drastically simplifies the challenge and complexity for today’s high frequency semiconductor designs. PeakView™ is process independent, we offer a complete set of passive devices for synthesis and customization at any process technologies. The state-of-the-art software suite, along with a 3D full-wave EM solver at its core, radically revolutionize the process of high frequency semiconductor design with confidence from prototyping to sign off. Layout EM provides 3D full wave EM simulation for as-is layout with DC – mmWave – TeraHertz accuracy and huge capacity in foundry PDK environment.


Electromigration™ and Silicon Photonics

... Electromigration™ and Silicon Photonics – Lorentz ...

Sicoya's Logo


Berlin, Germany

11-50 Employees


Sicoya develops and manufactures silicon photonic solutions that simplify challenging optical IO problems. Sicoya’s approach of integrating electronics and photonic components side-by side into single monolithic chips eliminates many challenges of traditional approaches. Our Mission is to combine operational excellence and the most advanced Silicon Photonic Technologies to deliver scalable products to worldwide leading customers fueling the digital revolution. We are also committed to preserving and promoting the fundamental right of others reflected in the RBA Code of Conduct, Universal Declaration of Human Rights, United Nations (UN) Principles on Business and Human Rights, and the UN Global Compact. Sicoya, founded in January 2015, is a spin-off from TU Berlin based on continuous R&D in Silicon Photonics since 2007. Sicoya’s optical interconnect solutions for data centers overcome this limitation. In combination with novel packaging concepts, power efficient and scalable transceivers for high volume production can be realized.


Silicon Photonics

... Silicon Photonics ...

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Some interesting numbers and facts about your company results for Silicon Photonics

Country with most fitting companiesUnited States
Amount of fitting manufacturers1868
Amount of suitable service providers1094
Average amount of employees11-50
Oldest suiting company2010
Youngest suiting company2019

Geographic distribution of results





Things to know about Silicon Photonics

What is Silicon Photonics?

Silicon photonics refers to the integration of photonic systems using silicon as the foundational material to manipulate and transmit light signals. This technology leverages the well-established manufacturing processes of the semiconductor industry, allowing for the production of optical components that are smaller, more energy-efficient, and potentially less expensive than their traditional counterparts. At its core, silicon photonics combines the data-carrying capacity of optical fibers with the processing power of silicon-based electronics, enabling high-speed data transmission over optical fibers using light rather than electrical signals. This convergence of optical and electronic functionalities on a single silicon chip can lead to significant advancements in various fields, including telecommunications, computing, and healthcare diagnostics. For instance, in the realm of high-speed internet and data centers, silicon photonics dramatically increases bandwidth and data transfer rates while reducing energy consumption and operational costs. Furthermore, its application in medical diagnostics involves the use of optical biosensors that can detect diseases at much earlier stages with greater precision. The role of silicon photonics, therefore, marks a pivotal shift towards more efficient, scalable, and cost-effective solutions across multiple sectors, promising a future where the speed and integration of optical and electronic data processing reach unprecedented levels.

Advantages of Silicon Photonics

1. Higher Data Transfer Speeds
Silicon photonics technology facilitates significantly faster data transmission rates compared to traditional electronic devices. By utilizing light to transfer data, this method can achieve speeds that are orders of magnitude greater, supporting the ever-growing demand for high-speed internet and data center services.

2. Reduced Energy Consumption
One of the standout advantages of silicon photonics is its efficiency in energy usage. The technology's ability to transmit data using light significantly lowers the power required, translating into lower operational costs and a more environmentally friendly solution.

3. Cost-Effectiveness
Silicon, being abundant and relatively inexpensive, makes silicon photonics a cost-effective alternative to other materials used in photonic devices. Additionally, the compatibility of silicon photonics with existing semiconductor fabrication techniques further reduces production costs, making it an economical choice for a wide range of applications.

4. Scalability
The integration of silicon photonics with existing silicon-based electronics offers a seamless path for scaling up technologies. This compatibility allows for the development of more compact, integrated systems that can be produced on a large scale, meeting the demands of modern technology infrastructures.

How to select right Silicon Photonics supplier?

While evaluating the different suppliers make sure to check the following criteria:

1. Manufacturing Capabilities
Evaluate the supplier's ability to produce high-quality silicon photonics components that meet your specific needs. This includes their fabrication facilities and the technologies they employ.

2. Quality Assurance Processes
Assess the supplier's quality control measures to ensure the reliability and performance of their silicon photonics products. Look for certifications like ISO 9001 to gauge their commitment to quality.

3. Scalability
Consider the supplier's capacity to scale production up or down based on your demand. This flexibility can be crucial for adapting to market changes and growth.

4. Technical Support and Service
Check the level of technical support and after-sales service offered. A supplier with a strong support team can provide valuable assistance in integration and troubleshooting.

5. Research and Development (R&D) Capabilities
The supplier's commitment to R&D indicates their ability to innovate and improve their products, which can give you a competitive edge in the market.

6. Cost-effectiveness
While not compromising on quality, consider the cost-effectiveness of their solutions. Competitive pricing, along with the criteria above, can help you make a more informed decision.

What are common B2B Use-Cases for Silicon Photonics?

Silicon photonics technology is revolutionizing the telecommunications industry by enabling faster data transfer speeds over longer distances. By integrating photonic and electronic components on a single silicon chip, businesses can achieve more efficient, high-bandwidth communication networks. This advancement is crucial for service providers aiming to meet the growing demand for cloud computing and 5G services, offering a scalable solution for transmitting vast amounts of data with minimal latency. In the data center sector, silicon photonics plays a pivotal role in addressing the bandwidth and energy efficiency challenges. As data centers expand to support increasing internet traffic and services, the need for low-power, high-speed data transmission becomes paramount. Silicon photonics technology facilitates the development of high-density optical interconnects that can support the rapid growth of data traffic, significantly reducing the energy consumption and cost associated with data center operations. The healthcare industry benefits from silicon photonics through the enhancement of medical diagnostics and imaging techniques. Leveraging the technology's ability to manipulate light at a very small scale, medical devices can achieve higher precision and sensitivity. This enables earlier detection of diseases and more accurate imaging, leading to better patient outcomes. Silicon photonics is particularly impactful in developing non-invasive diagnostics tools, offering a promising avenue for advancements in medical technology.

Current Technology Readiness Level (TLR) of Silicon Photonics

Silicon photonics, a burgeoning field that merges photonic and electronic components on a single silicon platform, has ascended to a Technology Readiness Level (TRL) between 4 and 6. This range indicates that the technology has evolved from small scale, experimental validations (TRL 4) to larger, more integrated system demonstrations in relevant environments (TRL 6). The primary technical reasons underpinning this classification stem from significant advancements in fabrication techniques and integration processes. These have enabled the creation of high-quality optical components, such as waveguides and modulators, directly on silicon substrates, leveraging the mature infrastructure of the semiconductor industry. However, challenges remain in achieving efficient light sources within silicon due to its indirect bandgap, necessitating hybrid approaches that integrate direct bandgap materials like indium phosphide. Additionally, issues related to thermal management and the integration density of photonic and electronic components present hurdles that must be overcome to transition to higher TRLs. Despite these challenges, the technology's progression to this stage underscores its potential for revolutionizing data communication and processing by offering high-speed, low-power optical interconnects.

What is the Technology Forecast of Silicon Photonics?

In the short-term, the silicon photonics market is poised for rapid advancements in high-speed data communication applications. Immediate developments include the integration of more efficient laser sources directly onto silicon chips, significantly enhancing data transmission speeds while reducing power consumption. This phase will also witness improvements in photonic-electronic integration techniques, enabling more compact and energy-efficient optical interconnects for data centers and high-performance computing systems. Mid-term projections for silicon photonics focus on broadening its application scope beyond data communications to include biomedical sensors and LiDAR systems for autonomous vehicles. This stage will see the emergence of advanced modulation formats and wavelength division multiplexing (WDM) technologies, facilitating higher data rates and more efficient bandwidth utilization. Additionally, efforts to standardize silicon photonic components will gain momentum, fostering greater interoperability and fueling innovation across various industry sectors. Long-term, silicon photonics is expected to revolutionize computing architectures through the development of all-optical chips, enabling ultrafast processing speeds unachievable with traditional electronic components. Quantum computing applications will also benefit from silicon photonics, as researchers develop integrated photonic circuits that can operate at single-photon levels, paving the way for scalable quantum information processing. Furthermore, advancements in materials science could see the integration of new materials with silicon, offering greater functionality and efficiency, and opening new avenues for photonic applications.

Frequently asked questions (FAQ) about Silicon Photonics Companies

Some interesting questions that has been asked about the results you have just received for Silicon Photonics

Based on our calculations related technologies to Silicon Photonics are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators

The most represented industries which are working in Silicon Photonics are Other, Electronics and Electrical engineering, Telecommunications, Semiconductor, IT, Software and Services

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