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Hardware architecture

From Wikipedia, the free encyclopedia

An F-117 conducts a live exercise bombing run using GBU-27 laser-guided bombs.
An F-117 conducts a live exercise bombing run using GBU-27 laser-guided bombs.

In engineering, hardware architecture refers to the identification of a system's physical components and their interrelationships. This description, often called a hardware design model, allows hardware designers to understand how their components fit into a system architecture and provides to software component designers important information needed for software development and integration. Clear definition of a hardware architecture allows the various traditional engineering disciplines (e.g., electrical and mechanical engineering) to work more effectively together to develop and manufacture new machines, devices and components.[1]

Hardware is also an expression used within the computer engineering industry to explicitly distinguish the (electronic computer) hardware from the software that runs on it. But hardware, within the automation and software engineering disciplines, need not simply be a computer of some sort. A modern automobile runs vastly more software than the Apollo spacecraft. Also, modern aircraft cannot function without running tens of millions of computer instructions embedded and distributed throughout the aircraft and resident in both standard computer hardware and in specialized hardward components such as IC wired logic gates, analog and hybrid devices, and other digital components. The need to effectively model how separate physical components combine to form complex systems is important over a wide range of applications, including computers, personal digital assistants (PDAs), cell phones, surgical instrumentation, satellites, and submarines.

Hardware architecture is the representation of an engineered (or to be engineered) electronic or electromechanical hardware system, and the process and discipline for effectively implementing the design(s) for such a system. It is generally part of a larger integrated system encompassing information, software, and device prototyping.[2]

It is a representation because it is used to convey information about the related elements comprising a hardware system, the relationships among those elements, and the rules governing those relationships.

Electric multi-turn actuator with controls.
Electric multi-turn actuator with controls.

It is a process because a sequence of steps is prescribed to produce or change the architecture, and/or a design from that architecture, of a hardware system within a set of constraints.

It is a discipline because a body of knowledge is used to inform practitioners as to the most effective way to design the system within a set of constraints.

A hardware architecture is primarily concerned with the internal electrical (and, more rarely, the mechanical) interfaces among the system's components or subsystems, and the interface between the system and its external environment, especially the devices operated by or the electronic displays viewed by a user. (This latter, special interface, is known as the computer human interface, AKA human computer interface, or HCI; formerly called the man-machine interface.)[3] Integrated circuit (IC) designers are driving current technologies into innovative approaches for new products. Hence, multiple layers of active devices are being proposed as single chip, opening up opportunities for disruptive microelectronic, optoelectronic, and new microelectromechanical hardware implementation.[4][5]

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A hardware architecture example, which is integrated as a handheld medical device for diabetes monitoring.
A hardware architecture example, which is integrated as a handheld medical device for diabetes monitoring.
U-Boat layout, with detailed equipment hardware specification and functionality.
U-Boat layout, with detailed equipment hardware specification and functionality.

Prior to the advent of digital computers, the electronics and other engineering disciplines used the terms system and hardware as they are still commonly used today. However, with the arrival of digital computers on the scene and the development of software engineering as a separate discipline, it was often necessary to distinguish among engineered hardware artifacts, software artifacts, and the combined artifacts.

A programmable hardware artifact, or machine, that lacks its computer program is impotent; even as a software artifact, or program, is equally impotent unless it can be used to alter the sequential states of a suitable (hardware) machine. However, a hardware machine and its programming can be designed to perform an almost illimitable number of abstract and physical tasks. Within the computer and software engineering disciplines (and, often, other engineering disciplines, such as communications), then, the terms hardware, software, and system came to distinguish between the hardware that runs a computer program, the software, and the hardware device complete with its program.

The hardware engineer or architect deals (more or less) exclusively with the hardware device; the software engineer or architect deals (more or less) exclusively with the program; and the systems engineer or systems architect is responsible for seeing that the programming is capable of properly running within the hardware device, and that the system composed of the two entities is capable of properly interacting with its external environment, especially the user, and performing its intended function.

A hardware architecture, then, is an abstract representation of an electronic or an electromechanical device capable of running a fixed or changeable program.[6][7]

A hardware architecture generally includes some form of analog, digital, or hybrid electronic computer, along with electronic and mechanical sensors and actuators. Hardware design may be viewed as a 'partitioning scheme,' or algorithm, which considers all of the system's present and foreseeable requirements and arranges the necessary hardware components into a workable set of cleanly bounded subsystems with no more parts than are required. That is, it is a partitioning scheme that is exclusive, inclusive, and exhaustive. A major purpose of the partitioning is to arrange the elements in the hardware subsystems so that there is a minimum of electrical connections and electronic communications needed among them. In both software and hardware, a good subsystem tends to be seen as a meaningful "object." Moreover, a clear allocation of user requirements to the architecture (hardware and software) provides an effective basis for validation tests of the user's requirements in the as-built system.

See also


  1. ^ Rai, L.; Kang, S.J. (2008). "Rule-based modular software and hardware architecture for multi-shaped robots using real-time dynamic behavior identification and selection". Knowledge-Based Systems. 21 (4): 273–283. doi:10.1016/j.knosys.2007.05.008.
  2. ^ Frampton, K.D., Martin, S.E. & Minor, K. (2003). "The scaling of acoustic streaming for application in micro-fluidic devices". Applied Acoustics. 64 (7): 681–692. doi:10.1016/S0003-682X(03)00005-7.CS1 maint: multiple names: authors list (link)
  3. ^ Brunelli, C., Garzia, F. & Nurmi, J. (2008). "A coarse-grain reconfigurable architecture for multimedia applications featuring subword computation capabilities". Journal of Real-Time Image Processing. 3 (1–2): 21–32. doi:10.1007/s11554-008-0071-3.CS1 maint: multiple names: authors list (link)
  4. ^ Cale, T.S., Lu, J.-Q. & Gutmann, R.J. (2008). "Three-dimensional integration in microelectronics: Motivation, processing, and thermomechanical modeling". Chemical Engineering Communications. 195 (8): 847–888. doi:10.1080/00986440801930302.CS1 maint: multiple names: authors list (link)
  5. ^ Cavalcanti, A., Shirinzadeh, B., Zhang, M. & Kretly, L.C. (2008). "Nanorobot  Hardware Architecture for Medical Defense". Sensors. 8 (5): 2932–2958. doi:10.3390/s8052932. PMC 3675524. PMID 27879858.CS1 maint: multiple names: authors list (link)
  6. ^ Assif, D., Himel, R. & Grajower, Y. (1988). "A new electromechanical device to measure the accuracy of interocclusal records". Journal of Prosthetic Dentistry. 59 (6): 672–676. doi:10.1016/0022-3913(88)90380-0. PMID 3165452.CS1 maint: multiple names: authors list (link)
  7. ^ Zimmermann, M., Volden, T., Kirstein, K.-U., Hafizovic, S., Lichtenberg, J., Brand, O. & Hierlemann, A. (2008). "A CMOS-based integrated-system architecture for a static cantilever array". Sensors and Actuators B: Chemical. 131 (1): 254–264. doi:10.1016/j.snb.2007.11.016.CS1 maint: multiple names: authors list (link)
This page was last edited on 30 December 2019, at 09:29
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