Future of NeoPhotonics | Quantumrun

Future of NeoPhotonics

The NeoPhotonics company is a U.S. based public conglomerate, which has its headquarters based in San Jose, California. The company was originally founded in the year 1996. This company specially invents, produces, and distributes optoelectronic products, which can transmit, switch, and receive optical digital signals of high speed for the communications networks. Such manufactured products include tunable lasers, high bandwidth receivers, optical semi-conductors, transceivers, and circuits integrated with photonic, along with a hundred gigabit for each second and higher modules. All of these are cost-effective elements that can handle gigantic quantities of data at incredibly high speeds.
The products by NeoPhotonics principally put into operation a good deal of coherent technology and take in those that are designed for 100G and higher rates of data, like 600G, 200G, and 400G for data center and telecom or applications and content provider networks. The 100G and beyond high speed of the company’s coherent items are based on the technology of the Advanced Hybrid Photonic Integration.

Home Country: 
United States
Industry: 
Optoelectronics
Industry vulnerability to disruption: 

<p>Belonging to the technology sector means this company will be affected directly and indirectly by a number of disruptive opportunities and challenges over the coming decades. While described in detail within Quantumrun’s special reports, these disruptive trends can be summarized along the following broad points:</p>

<p>*First off, internet penetration will grow from 50 percent in 2015 to over 80 percent by the late-2020s, allowing regions across Africa, South America, the Middle East and parts of Asia to experience their first Internet revolution. These regions will represent the biggest growth opportunities for tech companies over the next two decades.<br />
*Similar to the point above, the introduction of 5G internet speeds in the developed world by the mid-2020s will enable a range of new technologies to finally achieve mass commercialization, from augmented reality to autonomous vehicles to smart cities.<br />
*Gen-Zs and Millennials are set to dominate the global population by the late-2020s. This tech-literate and tech-supporting demographic will fuel the adoption of an ever greater integration of technology into every aspect of human life.<br />
*The shrinking cost and increasing computational capacity of artificial intelligence (AI) systems will lead to its greater use across a number of applications within the tech sector. All regimented or codified tasks and professions will see greater automation, leading to dramatically reduced operating costs and sizeable layoffs of white and blue-collar employees.<br />
*One highlight from the point above, all tech companies that employ custom software in their operations will increasingly begin adopting AI systems (more so than humans) to write their software. This will eventually result in software that contains fewer errors and vulnerabilities, and a better integration with tomorrow's increasingly powerful hardware.<br />
*Moore’s law will continue to advance the computational capacity and data storage of electronic hardware, while the virtualization of computation (thanks to the rise of the ‘cloud’) will continue to democratize computation applications for the masses.<br />
*The mid-2020s will see significant breakthroughs in quantum computing that will enable game-changing computational abilities applicable to most offerings from technology sector companies.<br />
*The shrinking cost and increasing functionality of advanced manufacturing robotics will lead to further automation of factory assembly lines, thereby improving manufacturing quality and costs associated with consumer hardware built by tech companies.<br />
*As the general population becomes ever more dependant on the offerings of tech companies, their influence will become a threat to governments who will seek to increasingly regulate them into submission. These legislative power plays will vary in their success depending on the size of the tech company targeted.</p>

Total patents held: 
55
Ranking List: 
509
Ranking List: 
2017 Quantumrun Global 1000
335
Ranking List: 
2017 Quantumrun US 500
56
Ranking List: 
2017 Quantumrun Silicon Valley 100
Market Revenue Country: 
Market country 
China
Revenue from country 
0.62
Prod/Serv name revenue: 
Prod/Serv name: 
High speed product
Prod/Serv revenue: 
277258000
Prod/Serv name: 
Network products and solutions
Prod/Serv revenue: 
134165000
Founded: 
1996
Company Name: 
NeoPhotonics
Sector: 
Revenue: 
411423000
3y average revenue: 
352346333
Operating expenses: 
114114000
3y average expenses: 
99830667
Company profile data note: 
All company data collected from its 2016 annual report and other public sources. The accuracy of this data and the conclusions derived from them depend on this publicly accessible data. If a data point listed above is discovered to be inaccurate, Quantumrun will make the necessary corrections to this live page.
Global employee count: 
2401
Domestic employee count: 
310
Number of domestic locations: 
3
Funds in reserve: 
82500000
Investment into R&D: 
57376000
create term: 
#509 | 2017 Quantumrun Global 1000
#335 | 2017 Quantumrun US 500
#56 | 2017 Quantumrun Silicon Valley 100

The NeoPhotonics company is a U.S. based public conglomerate, which has its headquarters based in San Jose, California. The company was originally founded in the year 1996. This company specially invents, produces, and distributes optoelectronic products, which can transmit, switch, and receive optical digital signals of high speed for the communications networks. Such manufactured products include tunable lasers, high bandwidth receivers, optical semi-conductors, transceivers, and circuits integrated with photonic, along with a hundred gigabit for each second and higher modules. All of these are cost-effective elements that can handle gigantic quantities of data at incredibly high speeds.
The products by NeoPhotonics principally put into operation a good deal of coherent technology and take in those that are designed for 100G and higher rates of data, like 600G, 200G, and 400G for data center and telecom or applications and content provider networks. The 100G and beyond high speed of the company’s coherent items are based on the technology of the Advanced Hybrid Photonic Integration.

Home country:
United States
Sector:
Technology
Industry:
Optoelectronics
Website:
Founded:
1996
Global employee count:
2,401
Domestic employee count:
310

Financial Health

Revenue
$411,423,000 USD
3y average revenue
$352,346,333 USD
Operating expenses
$114,114,000 USD
3y average expenses
$99,830,667 USD
Funds in reserve
$82,500,000 USD
#1 Market country
China
% of revenue from country #1
0.62%

Asset Performance

#1 Product/Service/Dept. name
High speed product
#1 Product/Service revenue
$277,258,000 USD
#2 Product/Service/Dept. name
Network products and solutions
#2 Product/Service revenue
$134,165,000 USD

Innovation assets and Pipeline

Investment into R&D
$57,376,000 USD
Total patents held
55
All company data collected from its 2016 annual report and other public sources. The accuracy of this data and the conclusions derived from them depend on this publicly accessible data. If a data point listed above is discovered to be inaccurate, Quantumrun will make the necessary corrections to this live page.

Disruption Vulnerability

Belonging to the technology sector means this company will be affected directly and indirectly by a number of disruptive opportunities and challenges over the coming decades. While described in detail within Quantumrun’s special reports, these disruptive trends can be summarized along the following broad points:

*First off, internet penetration will grow from 50 percent in 2015 to over 80 percent by the late-2020s, allowing regions across Africa, South America, the Middle East and parts of Asia to experience their first Internet revolution. These regions will represent the biggest growth opportunities for tech companies over the next two decades.

*Similar to the point above, the introduction of 5G internet speeds in the developed world by the mid-2020s will enable a range of new technologies to finally achieve mass commercialization, from augmented reality to autonomous vehicles to smart cities.

*Gen-Zs and Millennials are set to dominate the global population by the late-2020s. This tech-literate and tech-supporting demographic will fuel the adoption of an ever greater integration of technology into every aspect of human life.

*The shrinking cost and increasing computational capacity of artificial intelligence (AI) systems will lead to its greater use across a number of applications within the tech sector. All regimented or codified tasks and professions will see greater automation, leading to dramatically reduced operating costs and sizeable layoffs of white and blue-collar employees.

*One highlight from the point above, all tech companies that employ custom software in their operations will increasingly begin adopting AI systems (more so than humans) to write their software. This will eventually result in software that contains fewer errors and vulnerabilities, and a better integration with tomorrow's increasingly powerful hardware.

*Moore’s law will continue to advance the computational capacity and data storage of electronic hardware, while the virtualization of computation (thanks to the rise of the ‘cloud’) will continue to democratize computation applications for the masses.

*The mid-2020s will see significant breakthroughs in quantum computing that will enable game-changing computational abilities applicable to most offerings from technology sector companies.

*The shrinking cost and increasing functionality of advanced manufacturing robotics will lead to further automation of factory assembly lines, thereby improving manufacturing quality and costs associated with consumer hardware built by tech companies.

*As the general population becomes ever more dependant on the offerings of tech companies, their influence will become a threat to governments who will seek to increasingly regulate them into submission. These legislative power plays will vary in their success depending on the size of the tech company targeted.