![]() Targeting Cookies: These cookies may be set through our site by Analog Devices and our service providers. If you do not allow these cookies we will not know when you have visited our site, and will not be able to monitor its performance. All information these cookies collect is aggregated and therefore anonymous. They help us to know which pages are the most and least popular and see how visitors move around the site. Performance Cookies: These cookies allow us to count visits and traffic sources so we can measure and improve the performance of our site. If you do not allow these cookies then some or all of these services may not function properly. They may be set by us or by third party providers whose services we have added to our pages. Functional Cookies: These cookies enable the website to provide enhanced functionality and personalization. These cookies do not store any personally identifiable information. You can set your browser to block or alert you about these cookies, but some parts of the site will not then work. ![]() They are usually only set in response to actions made by you which amount to a request for services, such as setting your privacy preferences, logging in or filling in forms. Strictly Necessary Cookies: (Always Active) These cookies are necessary for the website to function and cannot be switched off in our systems. After we finish updating our website, you will be able to set your cookie preferences. Maybe some day.Analog Devices is in the process of updating our website. I guess the real work is getting the X11 code to run on the Mac with OSX's X11 support. I think SPICE was accurately simulating what would happen if you hooked up power backwards! Rewiring my SPICE model to match their upside-down conventions got me back to 0 dB frequency response and so I'm no longer looking for a Mac SPICE program.īy the way, MacSpice has the command line interface, so folks who don't want to compile their own code can just download that. I initially assumed that VCC belonged on top, and that ground should be on the bottom, so I wired it the way we typically draw a schematic. I assume that if I have time I can compile the code you reference and then try my hand at running X11 programs on OSX.įor my immediate needs, I discovered what was wrong with the Windows SPICE program: the power pins on the op-amps were reversed, with ground on top and VCC on bottom, so my frequency response graphs looked incredibly weak. I have not used the X11 support in decades, on NEXTSTEP or Mac, but it is still an optional part of the Mac OS X installation process. Mac OS X can compile Unix sources, as you know, and it can also host X11 programs that are compiled on the Mac. The Fink packages for gEDA can be found here, they contain ngSPICE but not gspiceui. ![]() ![]() my son ended up installing Linux on his Mac Mini as a dual boot option or virtual machine to make full use of the gEDA suite and KiCAD package. However, gspiceui is a generic X11 application. For the GUI part you may take a look at gspiceui. The closest you may get, so you will have to compile it yourself, is ngSPICE which compiles as a generic Mac OS application but provides a command line interface only. except at XMOS (so you may send them an email or post on the XMOS community or support boards -, and get lucky somehow Macs are really hard to find in the VLSI/semiconductor industry. I am not aware of any free/open source generic Mac OS X GUI for (any) of the many SPICE versions floating around either. ![]()
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