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In this space, Bosch offers a wide array of versatile devices, from easy retrofit options to deeply embedded devices. BOSCH IBOOSTER AND COMPUTER DRIVERSThe performance demands on these architectures are also intensifying, and Bosch is bolstering these systems for an increasingly in-terconnected future.Ĭonnected solutions keep vehicles and drivers secure and informedĪutomakers and providers require the right hardware for various connected services and applications. As electrified, automated and connected solutions become more prevalent, the complexity of E/E archi-tectures is on the rise. ![]() While the VCU reduces complexity, it also enables future innovations by providing a scalable platform for the increasingly complex electric/electronic architectures needed to support new technologies. This frees up valuable installation space, reduces vehicle weight, and simplifies communication among control units. The Bosch Vehicle Control Unit (VCU) is one of several solutions, which can provide substantially higher compute for added functions while reducing the number standalone units. Bosch’s ap-proach to vehicle computing is pioneering and setting new standards in vehicle systems. Modern vehicles have as many as 100 standalone control units. Regardless of the powertrain approach, engines are becoming more complex. The strengths of each approach perfectly complements the other, resulting in increased fuel efficiency alongside a decrease in emissions. P-DI combines two normally separate fuel-injection approaches into one innovative system. Thanks to Bosch advancements such as port and direct gasoline injection (P-DI), ICE engines are seeing significant gains in efficiency and performance. The internal combustion engine (ICE) will remain a significant part of mobility into the forseeable future. The system is designed to extend an electric vehicle’s driving range while keeping its fast-charging battery cool. For example, Bosch’s high-efficiency thermal management system can solve significant challenges for electric vehicles. There will also be other key innovations on display. At NAIAS 2018, Bosch will showcase the eAxle and how it fits into the exciting future of electric vehicles. The innovative eAxle combines the electric motor, power electronics and transmission into one compact unit that directly drives the vehicle. Since that time, eAxle has experienced great success, rapidly becoming a technology solution for start-up and traditional OEM's alike. Consider the Bosch eAxle, which made its global debut at NAIAS 2017. Sustainable performance across powertrain optionsĪs electrification goes mainstream, the powertrain is evolving. BOSCH IBOOSTER AND COMPUTER FULLFrom in-car systems to sensors, Bosch is delivering a full stack of automotive solutions for today and the future. In order for that to happen, atom structures need to be precisely analyzed, which is already difficult for mainframe computers that are currently employed by researchers.“Key automated, connected and electrified innovations will transform the ways we travel, do business, spend our commute time and care for our vehicles,” said Mike Mansuetti, president of Bosch in North America.Īt the North American International Auto Show (NAIAS), Bosch will present several innovations that will make vehicles more efficient, more context-aware and much safer. “Future large-scale quantum simulation could perhaps lead to treatments for diseases like Alzheimer’s,” suggests Ghose. Artificial intelligence, which is designed to analyze huge amounts of data, could benefit from this, as could materials and pharmaceutical research. We can do calculations faster, and search faster through big data,” says Ghose. “That means we can do computing tasks that are outside of the reach of even the best computers today. This superposition allows qubits to carry out parallel computing operations. ![]() While a bit in a conventional computer is in a state of either zero or one, a qubit can take on any in-between state on the surface of the sphere. This, which is commonly referred to as a “superposition” state, cannot be compared to anything from our everyday world, but can be easily explained with the following image: imagine a qubit as a sphere with the one at its north pole and the zero at its south pole. In other words, it can be described as having a probability of being zero or one. BOSCH IBOOSTER AND COMPUTER CODEThese go beyond the usual binary code of zeros and ones because they can take on any number of overlap states. Whereas conventional computers use bits as the smallest electronic storage unit, quantum computers use quantum bits - qubits for short. ![]()
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