![]() This report makes this argument drawing on policy and technological research, interviews with key stakeholders, and empirical data collected and subsequently analyzed on the 475 undersea cables deployed around the world (at the time of writing). Failing to do so will only leave these systems more vulnerable to espionage and to potential disruption that cuts off data flows and harms economic and national security. As the White House increasingly focuses on cybersecurity threats to the nation and the global community, including from the Chinese and Russian governments, it must prioritize investing in the security and resilience of the physical infrastructure that underpins Internet communication worldwide. ![]() The US government, therefore, has a new opportunity and responsibility-in coordination with the US private sector and with allies and partners abroad-to significantly increase its involvement in protecting the security and resilience of undersea cables. ![]() Third, the explosive growth of cloud computing has increased the volume and sensitivity of data crossing these cables. Second, more companies that manage undersea cables are using network management systems to centralize control over components (such as reconfigurable optical add/drop multiplexers (ROADMs) and robotic patch bays in remote network operations centers), which introduces new levels of operational security risk. Three trends are increasing the risks to undersea cables’ security and resilience: First, authoritarian governments, especially in Beijing, are reshaping the Internet’s physical layout through companies that control Internet infrastructure, to route data more favorably, gain better control of internet chokepoints, and potentially gain espionage advantage. The construction of new submarine cables is a key part of the constantly changing physical topology of the Internet worldwide. The security and resilience of undersea cables and the data and services that move across them are an often understudied and underappreciated element of modern Internet geopolitics. These hundreds of cables, owned by combinations of private and state-owned entities, support everything from consumer shopping to government document sharing to scientific research on the Internet. With our proven experience of providing world class subsea and terrestrial infrastructure, building diversity and connecting emerging markets is at the core of what we do.The vast majority of intercontinental global Internet traffic-upwards of 95 percent-travels over undersea cables that run across the ocean floor. Operating one of the largest, most advanced fibre networks, means we can help your business scale into new markets. We are constantly investing in our network to reach new cities with greater diversity. ![]() This equates to more than 3,000 possible route combinations! 400G wavelengths are available from EXA with immediate effect, with further routes and points of presence being added as we expand our reach. We have enabled over 65,000km of our network footprint to support 400G high-capacity bandwidth technology, including two transatlantic cables. This includes EXA Express, a 4,600 km high-performance subsea fibre route, quite simply, the fastest transatlantic route available today. Our routes extend throughout Europe and North America, crossing the Atlantic via three wholly owned and operated subsea cables. It spans 142,000 kilometres and operates with more than 500 optical PoPs. Our state-of-the-art network is built with leading optical technology. ![]()
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