Graphical system design - Revision history

Irisoptical: /* System-level design */

2024-11-11T03:52:37Z

System-level design

← Previous revision		Revision as of 03:52, 11 November 2024
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		⚫	'''Graphical system design''' ('''GSD''') is a modern approach to designing measurement and control systems that integrates system design software with [[Commercial off-the-shelf\|COTS]] hardware to dramatically simplify development. This approach combines user interfaces, [[models of computation]], math and analysis, Input/output signals, technology abstractions, and various deployment target. It allows [[domain expert]]s, or non- implementation experts, to access to design capabilities where they would traditionally need to outsource a system design expert.<ref>{{Cite book \|last=Galitz \|first=Wilbert O. \|url=https://www.google.com/books/edition/The_Essential_Guide_to_User_Interface_De/Q3Xp_Awu49sC?hl=en&gbpv=1&dq=%22Graphical+system+design%22+-wikipedia&pg=PA284&printsec=frontcover \|title=The Essential Guide to User Interface Design: An Introduction to GUI Design Principles and Techniques \|date=2007-04-10 \|publisher=John Wiley & Sons \|isbn=978-0-470-14622-4 \|language=en}}</ref>
	{{unref\|date=November 2011}}
⚫	'''Graphical system design''' ('''GSD''') is a modern approach to designing measurement and control systems that integrates system design software with [[Commercial off-the-shelf\|COTS]] hardware to dramatically simplify development. This approach combines user interfaces, [[models of computation]], math and analysis, Input/output signals, technology abstractions, and various deployment target. It allows [[domain expert]]s, or non- implementation experts, to access to design capabilities where they would traditionally need to outsource a system design expert.

	This approach to system design is a super-set of [[electronic system-level]] (ESL) design. Graphical system design expands on the EDA-based<!-- [http://www.edac.org/] --> ESL definition to include other types of embedded system design including industrial machines and medical devices. Many of these expanded applications can be defined as "[[the long tail]]" applications.<!-- This concept is further explained in this article [http://www.embedded.com/showArticle.jhtml?articleID=197008806]. -->		This approach to system design is a super-set of [[electronic system-level]] (ESL) design. Graphical system design expands on the EDA-based<!-- [http://www.edac.org/] --> ESL definition to include other types of embedded system design including industrial machines and medical devices. Many of these expanded applications can be defined as "[[the long tail]]" applications.<ref>{{Cite book \|last=Shanavas \|first=Dr A. R. Mohamed \|url=https://www.google.com/books/edition/User_Computer_Interaction_Website_and_Mo/V5fhEAAAQBAJ?hl=en&gbpv=1&dq=%22Graphical+system+design%22+-wikipedia&pg=PA55&printsec=frontcover \|title=User-Computer Interaction Website and Mobile Connection \|last2=Mrs.R.Ramya \|last3=Dr.M.Punitha \|last4=Dr.A.Saranya \|last5=Mrs.P.Shanthi \|date=2023-10-16 \|publisher=SK Research Group of Companies \|isbn=978-81-19980-28-4 \|language=en}}</ref><!-- This concept is further explained in this article [http://www.embedded.com/showArticle.jhtml?articleID=197008806]. -->

	== System-level design ==		== System-level design ==
	Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.		Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment.<ref>B. MacCleery, O. Trescases, M. Mujagic, D. M. Bohls, O. Stepanov and G. Fick, "A new platform and methodology for system-level design of next-generation FPGA-based digital SMPS," 2012 IEEE Energy Conversion Congress and Exposition (ECCE), Raleigh, NC, USA, 2012, pp. 1599-1606, doi: 10.1109/ECCE.2012.6342622. keywords: {Field programmable gate arrays;Switched-mode power supply;Software;Inverters;Digital signal processing;Integrated circuit modeling;Context modeling},</ref> The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.
	<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}		<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}

	== Tools ==		== Tools ==
	Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [[Applied Intuition\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].		Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [[Applied Intuition\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].<ref>{{Cite journal \|date=2014-06-01 \|title=NASA Tech Briefs, June 2014 \|url=https://ntrs.nasa.gov/citations/20140009967 \|language=en}}</ref>

	The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.		The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.
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	* [https://web.archive.org/web/20080827231525/http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]		* [https://web.archive.org/web/20080827231525/http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]

			== References ==
			<references />
	[[Category:Electronic design automation]]		[[Category:Electronic design automation]]

Cal-batman: /* Tools */ Mechanical Simulation Corporation and its products are now part of Applied Intuition, linking accordingly

2024-09-20T23:31:35Z

Tools: Mechanical Simulation Corporation and its products are now part of Applied Intuition, linking accordingly

← Previous revision		Revision as of 23:31, 20 September 2024
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	== Tools ==		== Tools ==
	Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], CarSim, [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].		Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [[Applied Intuition\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].

	The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.		The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.

Renewal6: Reverted edit by Redoyan RM (talk) to last version by Jiknimo

2024-06-20T09:42:29Z

Reverted edit by Redoyan RM (talk) to last version by Jiknimo

← Previous revision		Revision as of 09:42, 20 June 2024
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	== System-level design ==		== System-level design ==
	Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based ~~[https://www.redoyan.com/~~ machine.]		Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.
	<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}		<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}

Redoyan RM at 09:27, 20 June 2024

2024-06-20T09:27:18Z

← Previous revision		Revision as of 09:27, 20 June 2024
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	== System-level design ==		== System-level design ==
	Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.		Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based [https://www.redoyan.com/ machine.]
	<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}		<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}

Jiknimo at 07:52, 30 January 2024

2024-01-30T07:52:14Z

← Previous revision		Revision as of 07:52, 30 January 2024
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	== System-level design ==		== System-level design ==
	Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes and even use for ~~the~~ few ~~run~~ of ~~deployments~~. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.		Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes, and even use for few runs of deployment. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.
	<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}		<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}

Explicit: Removing link(s) Wikipedia:Articles for deletion/CarSim closed as delete (XFDcloser)

2023-07-23T04:02:14Z

Removing link(s) Wikipedia:Articles for deletion/CarSim closed as delete (XFDcloser)

← Previous revision		Revision as of 04:02, 23 July 2023
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	== Tools ==		== Tools ==
	Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], ~~[[Carsim\|~~CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].		Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], CarSim, [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].

	The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.		The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.

InternetArchiveBot: Rescuing 2 sources and tagging 1 as dead.) #IABot (v2.0

2020-01-02T06:22:54Z

Rescuing 2 sources and tagging 1 as dead.) #IABot (v2.0

← Previous revision		Revision as of 06:22, 2 January 2020
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	== System-level design ==		== System-level design ==
	Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes and even use for the few run of deployments. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm] to create a [[mechatronics engineering\|mechatronics]]-based machine.		Graphical system design is an approach to designing an entire system, using more intuitive graphical software and off-the-shelf (non-custom) hardware devices to refine the design, create initial prototypes and even use for the few run of deployments. The approach may involve [[Algorithm engineering]]. The approach can prove successful when designers need to get something to market quickly (medical video: [https://web.archive.org/web/20070930155006/http://www.designnews.com/article/CA6466514.html]) or with a team of non-embedded experts like Boston Engineering [http://www.boston-engineering.com/spotlight.htm]{{Dead link\|date=January 2020 \|bot=InternetArchiveBot \|fix-attempted=yes }} to create a [[mechatronics engineering\|mechatronics]]-based machine.
	<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}		<blockquote>"Graphical system design is a complementary but encompassing platform-based approach that includes embedded and electronic system design, implementation, and verification tools. ESL and graphical system design are really part of the same movement--higher abstraction and more design automation looking to solve the real engineering challenges that designers are facing today--addressing design flaws that are introduced at the specification stage to ensure they're detected well before validation for on-time product delivery."</blockquote>{{cn\|date=November 2011}}

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	* [https://web.archive.org/web/20080313040033/http://sine.ni.com/cs/app/doc/p/id/cs-756 Researchers Use Graphical System Design for Development and Control of Unmanned Underwater Vehicles]		* [https://web.archive.org/web/20080313040033/http://sine.ni.com/cs/app/doc/p/id/cs-756 Researchers Use Graphical System Design for Development and Control of Unmanned Underwater Vehicles]
	* [http://sine.ni.com/csol/cds/item/vw/p/id/768/nid/124100 Developing a Robotic Manipulator for Cancer Therapy Using Graphical System Design]		* [http://sine.ni.com/csol/cds/item/vw/p/id/768/nid/124100 Developing a Robotic Manipulator for Cancer Therapy Using Graphical System Design]
	* [http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]		* [https://web.archive.org/web/20080827231525/http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]

	[[Category:Electronic design automation]]		[[Category:Electronic design automation]]

InternetArchiveBot: Rescuing 1 sources and tagging 0 as dead. #IABot (v1.6beta2)

2017-10-22T17:24:33Z

Rescuing 1 sources and tagging 0 as dead. #IABot (v1.6beta2)

← Previous revision		Revision as of 17:24, 22 October 2017
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	Examples of engineers and scientists applying graphical system design techniques include:		Examples of engineers and scientists applying graphical system design techniques include:
	* [http://sine.ni.com/cs/app/doc/p/id/cs-15017 Graphical System Design for Digital Radio Mondiale]		* [http://sine.ni.com/cs/app/doc/p/id/cs-15017 Graphical System Design for Digital Radio Mondiale]
	* [http://sine.ni.com/cs/app/doc/p/id/cs-756 Researchers Use Graphical System Design for Development and Control of Unmanned Underwater Vehicles]		* [https://web.archive.org/web/20080313040033/http://sine.ni.com/cs/app/doc/p/id/cs-756 Researchers Use Graphical System Design for Development and Control of Unmanned Underwater Vehicles]
	* [http://sine.ni.com/csol/cds/item/vw/p/id/768/nid/124100 Developing a Robotic Manipulator for Cancer Therapy Using Graphical System Design]		* [http://sine.ni.com/csol/cds/item/vw/p/id/768/nid/124100 Developing a Robotic Manipulator for Cancer Therapy Using Graphical System Design]
	* [http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]		* [http://www.ciol.com/Design-Trends/News-Reports/Graphical-system-design-for-embedded-control-systems/15608107082/0/ Graphical system design for embedded control systems]

Mean as custard: external link removal

2014-03-10T14:29:28Z

external link removal

← Previous revision		Revision as of 14:29, 10 March 2014
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	== Tools ==		== Tools ==
	Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]~~], [http://www.ipg.de CarMaker~~], [[Carsim\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].		Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [[Carsim\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].

	The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.		The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.

Dedfilth at 14:26, 10 March 2014

2014-03-10T14:26:20Z

← Previous revision		Revision as of 14:26, 10 March 2014
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	== Tools ==		== Tools ==
	Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [[Carsim\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].		Graphical system design relies on open connectivity. For example, tools that can be used in the design phase include (in alphabetical order): [[Ansoft Designer]], [[AutoCAD]], [http://www.ipg.de CarMaker], [[Carsim\|CarSim]], [[DOORS]], [[Dymola]], [[LabVIEW]], [[MSC.Adams]], [[NI Multisim]], [[NEi Nastran]], [[SolidWorks]], [[SPICE]], [[OpenWire (library)]].

	The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.		The prototyping stage is more about taking algorithm design and implementing them on hardware for higher quality designs. An effective prototyping platform includes a high-level language, real-time processors, [[FPGA]] logic, modular I/O and any [[intellectual property]] needed.