Mathematica 11.3 for Linux no longer supports 32-bit Linux but is compatible with most 64-bit Linux distributions. Mathematica users at your site who are running a 32-bit version of Linux can continue to use Mathematica 11.2. The installer for Mathematica 11.2 will remain in their Wolfram User Portal
We have predicted that overflow may happen and we may need additional memory. Handling numbers this way isn't as fast as with numbers that fit in single words and it has to be implemented in software. Adding support for two-32-bit-word-numbers to a 32-bit CPU effectively makes it a 64-bit CPU (now it can operate on 64-bit numbers natively, right?).
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Just to show you how complicated things got:
The Intel 4004 was a 4-bit CPU
The Intel 8008 was an 8-bit CPU. It had 8-bit registers named A, B, C, and D.
The Intel 8086 was a 16-bit CPU. It had 16-bit registers named AX, BX, CX, and DX.
The Intel 80386 was a 32-bit CPU. It had 32-bit registers named EAX, EBX, ECX, and EDX.
The Intel x64 CPUs have 64-bit registers named RAX, RBX, RCX, and RDX.The x64 chips can run 16-bit code (in some operating modes), and can interpret 16-bit instructions. When doing so, the bits that make up the AX register are half of the bits that make up the EAX register, which are half of the bits that make up the RAX register. So anytime you change the value of AX, you are also changing EAX and RAX, because those bits used by AX are part of the bits used by RAX. (If you change EAX by a value that is a multiple of 65,536, then the low 16 bits are unchanged so AX would not change. If you change EAX by a value that is not a multiple of 65,536, then that would affect AX as well.)
On May 28, 2020, the Raspberry Pi Foundation announced a beta 64-bit version. However, this version was not based on Raspbian, instead taking its user space software from Debian GNU/Linux.[8] When the Foundation did not want to use the name Raspbian to refer to software that was not based on the Raspbian project, the name of the officially provided operating system was changed to Raspberry Pi OS.[8] This change was also carried over to the 32-bit version, though it continued to be based on Raspbian.[8] The 64-bit version of Raspberry Pi OS was officially released on February 2, 2022.[9]
Both threads however mentioned the 32-bit library issue, that CDF Player uses that instead of the 64-bit types. I took a look in /usr/lib/ and I could see both libXmu.so.6 and libgthread-2.0.so.0, but in /usr/lib32 the offending libgthread-2.0.so.0 library was missing.
In or just before 2020 I detected this problem, described it and asked for help. Even some people recognized it. But no solution was offered and even the future was referenced. Now I have finished developing my project there will remain this ashtonishing difference between the 32 and 64-bits release versions: only the 32-bits executable will show any help from this same chm-file because the 64-bits executable will simply not show anything but even be killed all together by an exception. So far I didn't experience any other striking difference between both versions.
I developed over the years both versions using Visual Studio[Community]. All htlm-files were created/compiled by using the Microsoft HTML Help Workshop generating a flawlessly running chm-file with me supposing applicable to both 32 and 64-bits executables. I know the chm-files are 32-bits generated in the time the HTML Help Workshop was developed no 64-bits being available. The operating system Windows should be able to manage these differences. The exception took place not within my 64-bits executable but somwhere within Windows after the executable's call of HtmlHelp(). So I expected in both calls exactly the same but I remain surprised by the 64-bits executable's deviating behaviour. Can anybody help me? Looking around I am used to detect chm-files used to function as a help tool both for 32 and 64-bits executables. What might I be doing wrong many others are doing correctly?
I am 100% certain any 64-bits executable together with a chm-helpfile will succeed in accessing its helpfile. And also that the same will apply for any 32-bits executable. So I am left thinking that I might be the only designer unable to achieve the same!
@TonEpskamp-0986 I took an existing .chm file (Microsoft Office Developer Documentation) and opened it with HtmlHelp() from a 32-bit and 64-bit minimal Windows Desktop application. The function completed successfully and opened the help file in all cases.
The documentation for the HtmlHelp function contains a caution that the executable must have a stack size greater than 100K. I changed the default stack size to 64K for my test application and then calling the function resulted in crashes for both 32-bit and 64-bit code.
Conversion of code from 32-bit to 64-bit can present some pitfalls when the code has some inherent assumptions which aren't valid between those platforms. e.g. - pointer sizes. size_t underlying types, etc.
"Migrating 32-bit C/C++ code to 64-bit is not a trivial task. There are many issues to consider. This article looks at the areas of numerical limits, data alignment, pointer arithmetic, and array indexing."
I seem to be using x64 successfully but that might only be wishfull thinking. I have the next reason for this question: I not only detected dark irregularities in my 64-bit but also in my 32-bit builds. Because of this I might want different codes for 32 and 64-bit depending on x64 not or indeed #defined. So possibly I might have just to return to "HtmlHelp() " for x86 in stead of "ShellExecute() combined with hh.exe".
This error may indicate that you are using a 64-bit version of Mathematica with a 32-bit version of MATLAB. Note that student versions of MATLAB R2013b or earlier on Windows are only available in 32-bit.
If you used a student version of MATLAB earlier than R2014a on Windows, it was a 32-bit version. R2014a is available for Windows in 64-bit as a student version. If updating a 32-bit version to a 64-bit version, it is necessary to change this setting in MATLink as well: SetOptions[MATLink, "Force32BitEngine" -> False].
Click the link below to download Wolfram Mathematica 2022 for free. The package includes a full offline installer and a standalone setup for the Windows operating system. Both 32-bit and 64-bit versions of Windows will be supported.
Note: Mathematica 11.3 for Linux no longer supports 32-bit Linux but is compatible with most 64-bit Linux distributions. Mathematica users at your site who are running a 32-bit version of Linux can continue to use Mathematica 11.2. The installer for Mathematica 11.2 will remain in the Wolfram User Portal.
Raspberry Pi OS is now available in 32-bit and 64-bit editions. Not all Raspberry Pi are compatible with it, but with recent models, a 64-bit operating system improves the program performances.
In short, it is straightforward. If you have a 64-bit processor, you should use a 64-bits operating system. But the Raspberry Pi Foundation still offers a 32-bit version of Raspberry Pis OS on their website.
Why? What should you do?
The issue is that most apps on Raspberry Pi OS 64-bit are still built for a 32-bit system. So even with a 64-bit processor on a recent Raspberry Pi model you might not see a major improvement in performances.
The release of the previous macOS (Catalina) completed a transition to exclusively-64-bit software that Apple had been carrying out since the introduction of macOS High Sierra in 2017. Catalina dropped all support for 32-bit applications. For more information on this transition, including information on how to identify 32-bit apps on your computer, consult the Apple support article: 32-bit app compatibility with macOS High Sierra 10.13.4 and later be457b7860
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