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iPronics Programmable Photonics
Valencia, Spain
A
11-50 Employees
2019
Key takeaway
iPronics is pioneering advancements in photonic chip technology, offering a revolutionary plug-and-play general-purpose photonic processor that significantly reduces development time and costs for application-specific photonic integrated circuits (ASPICs). Their innovations in photonics processing are set to enhance applications in 5/6 G communications, intelligent transceivers, and neuromorphic computing.
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Core business
Homepage - iPronics Programmable Photonics
iPronics SmartLight Processor iPronics presents the first plug & play general-purpose photonic processor More info Powerful Photonic Processing Boost applications with photonic processors for fiber transport, RF Photonics, and computing More info Would you like to see programmable photonics in action? Get a demo today More info010203 Programmable Photonics for processing iPronics is developing the […]
Analog Photonics
Boston, United States
B
11-50 Employees
2012
Key takeaway
Analog Photonics specializes in the development of photonic circuits, including innovative LiDAR and Optical Communications technology built on a proprietary silicon photonics platform. Their focus on disruptive innovation positions them to address growing market needs in sectors such as automotive, industrial, and medical, with a strong emphasis on high bandwidth and energy-efficient data communication solutions.
Highlighted product
Product
Technology | Analog Photonics
We have developed proprietary and patented integrated photonics technology within a 300mm wafer platform. Click here to learn more.
Scintil Photonics
Grenoble, France
A
1-10 Employees
2018
Key takeaway
SCINTIL Photonics specializes in developing silicon photonic integrated circuits that incorporate lasers and optical amplifiers, enhancing optical interconnects for Data Centers, High-Performance Computing, and 5G infrastructure. Their innovative technology is designed for high-speed connectivity, offering multiple laser frequencies for efficient data transmission.
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Core business
SCINTIL Photonics | III-V Augmented Silicon Photonic Integrated Circuits
SCINTIL Photonics, a supplier of silicon photonic integrated circuits augmented with hybrid silicon lasers and optical amplifiers, mass-produced in semi-conductor foundry, for optical connectivity in Data Centers, High Performance Computing (HPC/AI/ML) and 5G
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EFFECT Photonics
Eindhoven, Netherlands
A
101-250 Employees
2010
Key takeaway
EFFECT Photonics is revolutionizing telecommunications with its innovative light-to-digital technologies, including integrated optical system-on-chips and ultra-pure light sources. Their focus on advanced photonic integration and the development of coherent transceiver solutions highlights their commitment to enhancing data communications networks.
Highlighted product
Product
Ultra Pure Light Sources - EFFECT Photonics
We are developing the capabilities to provide a full coherent transceiver solution and also the light sources needed by other vendors.
Centera Photonics
Kunshan, China
D
11-50 Employees
2010
Key takeaway
Centera Photonics focuses on delivering advanced photonic products through innovative silicon designs and precision manufacturing processes, addressing the evolving needs of optical communication. Their approach highlights the advantages of optical transmission over traditional electrical methods, emphasizing benefits like broad bandwidth, high speed, and improved efficiency.
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Product
Technology - CENTERA PHOTONICS INC.
Technology
Sicoya
Berlin, Germany
A
11-50 Employees
2015
Key takeaway
Sicoya develops silicon photonic solutions that address complex optical I/O challenges by integrating electronics and photonic components into monolithic chips. Their innovative approach enables the creation of scalable optical interconnects and efficient transceivers, supporting advancements in data center technology.
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Product
Products - Sicoya GmbH
Silicon photonic
Wild Technologies, s.r.o.
Trnava, Slovakia
A
51-100 Employees
2006
Key takeaway
The company, 4H-JENA Engineering GmbH, highlights its expertise in optical inspection and measurement technology, emphasizing that their lighting solutions from Photonic are among the best in the market in terms of performance, quality, and durability.
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Service
Service - PHOTONIC
CamGraPhIC Ltd
Cambridge, United Kingdom
A
11-50 Employees
-
Key takeaway
The company specializes in developing a Graphene Integrated Photonics platform that enhances optical communications, addressing the growing data traffic demand with high-performance and low-power electro-optical engines. Their innovative use of graphene facilitates the creation of next-generation optical transceivers.
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Core business
Camgraphic - Graphene integrated photonics
Our platform supports the ever-increasing data traffic demand with high-performing and low-power consumption electro-optical engines.
SiPhotonIC Technologies
Kongens Lyngby, Denmark
A
1-10 Employees
2018
Key takeaway
SiPhotonIC specializes in the rapid prototyping of silicon photonic integrated circuits (PICs), leveraging advanced technology developed by the Department of Photonics Engineering. With expertise in creating high-performance silicon PICs for both classical and quantum applications, the company is well-equipped to transform innovative ideas into functional prototypes.
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Core business
Siphotonic | Rapid Prototyping of Silicon Photonic ICs
AEPONYX
Repentigny, Canada
A
11-50 Employees
2011
Key takeaway
AEPONYX specializes in creating Photonic Integrated Circuits using Silicon Nitride, integrating planar MEMS and switching technology to develop advanced photonics products. Their focus on hybrid integration and efficient design enables the production of small, fast, and energy-efficient solutions, making it a strong player in the photonics industry.
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Core business
AEPONYX Home
Here at AEPONYX we create Photonic Integrated Circuits. They are based on Silicon Nitride, and we integrate planar MEMS and Thermo-optic switches. We combine this with hybrid integration to deliver advanced solutions
Technologies which have been searched by others and may be interesting for you:
A photonic chip is a microchip that utilizes light instead of electricity to perform various functions. It can manipulate photons to carry and process information, enabling faster data transmission and reduced energy consumption compared to traditional electronic chips. These chips are integral in applications such as telecommunications, data centers, and sensor technology, where high-speed and high-capacity data handling is essential. By integrating multiple photonic components on a single chip, manufacturers can achieve greater efficiency and functionality, paving the way for advancements in optical computing and quantum technologies.
Photonic chips utilize light instead of electrical signals to perform data processing and communication tasks. They rely on the principles of optics, incorporating components such as waveguides, lasers, and detectors to manipulate photons. When light enters the chip through a waveguide, it can be directed, split, or modulated to carry information, enabling high-speed data transmission with minimal energy loss. The integration of various photonic components on a single chip allows for compact designs that enhance performance while reducing the physical footprint. These chips can perform functions like signal processing and data routing at speeds much faster than traditional electronic chips, making them increasingly valuable in telecommunications, computing, and sensor applications.
Photonic chips have a wide range of applications across various fields due to their ability to manipulate light for processing and communication. In telecommunications, these chips enhance data transmission speeds and bandwidth, enabling faster internet and communication networks. In the realm of computing, photonic chips facilitate ultra-fast processing by leveraging light instead of electrical signals, which can significantly improve computational power and reduce energy consumption. Additionally, they find applications in sensors, where they are used for detecting environmental changes, and in medical devices, particularly in imaging and diagnostics, allowing for more accurate and efficient medical assessments.
1. High-Speed Data Transmission
Photonic chips enable significantly faster data transmission compared to traditional electronic chips. This is due to the use of light for signal propagation, which can carry more information at higher speeds, making them ideal for applications requiring rapid data processing.
2. Energy Efficiency
These chips consume less power than their electronic counterparts. The use of light reduces energy losses during transmission, leading to more efficient operation, especially in data centers and telecommunications, where energy costs are a major concern.
3. Miniaturization
Photonic chips can be made smaller than electronic chips while maintaining functionality. This miniaturization opens up possibilities for integration into compact devices, enhancing performance without increasing size.
4. Improved Bandwidth
They offer a higher bandwidth capability, allowing for the transmission of more data simultaneously. This advantage is essential for meeting the increasing demand for bandwidth in applications such as cloud computing and high-speed internet.
5. Enhanced Signal Quality
Photonic chips provide better signal integrity and lower noise levels. The use of light minimizes distortions and interference, resulting in clearer signals over longer distances, which is crucial for effective communication systems.
The future of photonic chip technology looks promising, driven by advancements in data transmission and processing capabilities. As the demand for faster and more efficient computing continues to grow, photonic chips, which use light instead of electricity, are set to play a crucial role. These chips offer significantly higher bandwidth and lower energy consumption, making them ideal for applications in telecommunications, data centers, and artificial intelligence. Moreover, ongoing research is focused on integrating photonic components with existing electronic systems. This integration will enhance performance while reducing latency, paving the way for innovations in fields like quantum computing and advanced sensing applications. As manufacturers invest in scaling production and improving fabrication techniques, we can expect photonic chips to become more accessible, further accelerating their adoption across various industries.
Some interesting numbers and facts about your company results for Photonic Chip
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 6415 |
| Amount of suitable service providers | 4066 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 2006 |
| Youngest suiting company | 2019 |
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Some interesting questions that has been asked about the results you have just received for Photonic Chip
What are related technologies to Photonic Chip?
Based on our calculations related technologies to Photonic Chip are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Which industries are mostly working on Photonic Chip?
The most represented industries which are working in Photonic Chip are Other, Electronics and Electrical engineering, IT, Software and Services, Telecommunications, Semiconductor
How does ensun find these Photonic Chip Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
