In order to wipe physical memory to the best of your ability (you mentioned
dd so we are talking about an userland solution!), it is sufficient to create an anonymous mapping the same size as the installed RAM1 and to touch every page by writing a single byte (or any other amount) to one address inside each page.
This will cause a page fault and trigger a copy-on-write operation on the zero page for every page in your mapping that you touch, which will either commit an already zeroed page or zero an unused non-zeroed physical page of memory -- until there are none left, at which point your process will be killed by the OOM killer (or will receive
SIGBUS, depending which one hits your process first).
If you want it to be somewhat "cleaner" (that is, without OOM killer), you need to stop before touching the last page, obviously. But in general, this is all it takes.
You will not be able to wipe all physical pages like this, but there really is no way of doing that with a user process (not without swap, and not in a deterministic way).
Pages that are committed by other processes or pages that belong to the kernel can't be overwritten with this approach, at least not reliably (since there is no swap, these can't be swapped out, though you might be lucky and have OOM kill other processes instead of yours).
You cannot in general overwrite physical memory in a 100% reliable way unless you replace the running kernel.
If you want to be super "thorough", then your only option is to write code as it can be found e.g. in memtest_x86, which you invoke from kernel mode, replace the running kernel and overwrite raw physical memory "the hard way", much like memtest_x86 does, too.
But then, if you go the ultra-paranoia route, don't forget to clear GPU memory and wipe hard disk caches and network card memory as well...
Actually, you would have to create a mapping the size of the maximum commit size -- but you stated that there is no swap, so "size of RAM" will do. Seeing how modern disk drives do extensive wear-levelling, overwriting swap wouldn't help an awful lot anyway, but at least you could guarantee that you are hitting all RAM pages if you commit up to the maximum commit size.