The device cant draw power over HDMI, and a wall charger and a micro-USB cable are provided in the box.Īn HDMI extension cable is also included, so you can connect it without hassle. The Compute stick hooks up to any available HDMI port on a monitor or a television, and basically converts it into a proper PC. The latter can be expanded by another 128GB via the aforementioned microSD card slot. Inside sits an Intel Atom Z3735F quad-core processor that runs at 1.33GHz (with burst speeds up to 1.83GHz), and it also comes with 2GB of RAM, and 32GB of internal storage. There are a few vents on the sides as well, whereas the top bears an Intel Inside logo and a couple of tiny fans that keep it from getting too hot. Its not much by way of design at one end, youll see an HDMI connector, while on the sides, youll find a micro-USB port for power, a microSD card slot and a full-sized USB 2.0 port. With the Compute Stick, Intel has basically crammed a full-fledged, Windows-running computer into an HDMI dongle just slightly bigger than a Google Chromecast. Lets delve slightly deeper into what the device is, and what it can do. Think of it as a lollipop (the traditional variety, not the last version of Android), as it essentially holds a treat in the form of a stick. Unveiled at CES, the Compute Stick is very aptly named its a computer on a stick. Our smartphones these days have become so powerful that it wouldnt be wrong to call them mini PCs, but with the Compute Stick, Intel has sort of changed things for us. Wa_cq_url: "/content/www/us/en/research/quantum-computing.The Compute Stick from Intel is an innovative device that may not be for everybody, but still stands out for what it brings Wa_audience: "emtaudience:business/itoperationsspecialist/itmanager", Wa_english_title: "Quantum Computing - Reinventing Data Processing", Wa_subject: "emtsubject:corporateinformation,emtsubject:education", Wa_emtsubject: "emtsubject:corporateinformation,emtsubject:education", Wa_emtcontenttype: "emtcontenttype:salesandmarketingmaterials/marketingarticles", And third, the cryoprober enables high-volume testing that is helping to accelerate commercialization.Įven though we may be years away from large-scale implementation, quantum computing promises to enable breakthroughs in materials, chemicals and drug design, financial and climate modeling, and cryptography. Second, the Horse Ridge II cryogenic quantum control chip provides tighter integration. Intel Labs is working to overcome these challenges with the help of industry and academic partners and has made significant progress.įirst, Intel is leveraging its expertise in high-volume transistor manufacturing to develop ‘hot’ silicon spin-qubits, much smaller computing devices that operate at higher temperatures. To achieve quantum practicality, commercial quantum systems need to scale to over a million qubits and overcome daunting challenges like qubit fragility and software programmability. Today’s quantum systems only include tens or hundreds of entangled qubits, limiting them from solving real-world problems. Quantum bits or “qubits” can simultaneously operate in multiple states enabling unprecedented levels of parallelism and computing efficiency. Traditional transistors use binary encoding of data represented electrically as “on” or “off” states. Quantum computing employs the properties of quantum physics like superposition and entanglement to perform computation.
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