! function(o, t, e, a) { o._aoForms = o._aoForms || [], o._aoForms.push(a); var n = function() { var o = t.createElement(e); o.src = ("https:" == t.location.protocol ? "https://" : "http://") + "support.flex.com/acton/content/form_embed.js", o.async = !0; for (var a = t.getElementsByTagName(e)[0], n = a.parentNode, c = document.getElementsByTagName("script"), r = !1, s = 0; s < c.length; s++) { if (c[s].getAttribute("src") == o.getAttribute("src")) r = !0; } r ? typeof(_aoFormLoader) != "undefined" ? _aoFormLoader.load({ id: "482592df-d182-4ff0-be56-eebb313261fa:d-0001", accountId: "39314", domain: "support.flex.com", isTemp: false, noStyle: false, prefill: false }) : "" : n.insertBefore(o, a) }; window.attachEvent ? window.attachEvent("onload", n) : window.addEventListener("load", n, !1), n() }(window, document, "script", { id: "482592df-d182-4ff0-be56-eebb313261fa", accountId: "39314", domain: "support.flex.com", isTemp: false, noStyle: false, prefill: false });

As the automotive industry prepares for a future with autonomous vehicles (AVs) it must adapt to provide customers with a truly connected, secure and safe experience. That experience demands a platform supported by increased connectivity and cloud infrastructure. The industry will require immense computing and processing power for all the information that AVs rely on and will continue to rely on in a future with 5G.

 

Introducing AVs on the roads has been delayed due to the difficulty of adapting machine learning and artificial intelligence (AI) systems for AVs to master the complex task of driving. Read this paper to learn about the AV tech stack, sensors and the data center infrastructure to support the computing power needed for AV success.

 

 
    ! function(o, t, e, a) { o._aoForms = o._aoForms || [], o._aoForms.push(a); var n = function() { var o = t.createElement(e); o.src = ("https:" == t.location.protocol ? "https://" : "http://") + "support.flex.com/acton/content/form_embed.js", o.async = !0; for (var a = t.getElementsByTagName(e)[0], n = a.parentNode, c = document.getElementsByTagName("script"), r = !1, s = 0; s < c.length; s++) { if (c[s].getAttribute("src") == o.getAttribute("src")) r = !0; } r ? typeof(_aoFormLoader) != "undefined" ? _aoFormLoader.load({ id: "049b84f9-6d75-4514-bc08-c91f704e3902:d-0001", accountId: "39314", domain: "support.flex.com", isTemp: false, noStyle: false, prefill: false }) : "" : n.insertBefore(o, a) }; window.attachEvent ? window.attachEvent("onload", n) : window.addEventListener("load", n, !1), n() }(window, document, "script", { id: "049b84f9-6d75-4514-bc08-c91f704e3902:d", accountId: "39314", domain: "support.flex.com", isTemp: false, noStyle: false, prefill: false }); var f = function(){ setTimeout(() => { var s = document.createElement('script'); s.type = 'text/javascript'; s.src="https://www.linkedin.com/autofill/js/autofill.js"; document.body.appendChild(s); }, 2000); }; f();

    Related articles

    Massive MIMO antenna array
    Solution brief
    Customizable Flex reference design for a Massive MIMO antenna array with 16 dual polarized elements, operating at 2.5 GHz.
    Autonomous delivery industry trends
    Stories
    What you need to know to prepare for a new autonomous distribution ecosystem.
    Rack-optimized compute solutions
    Solution brief
    We provide rack-level compute and storage solutions tailored to meet your needs and provide you with flexibility, performance and value.

    Subscribe to our blog

    You can learn more about our use of cookies and your choices here. By clicking on any link on this page or clicking "OK, I agree", you are giving your consent for us to set cookies.