In Linux 32bit, the kernel occupies 1gb of memory while the userspace will occupy the remaining gigs (~3) - how does this differ to the 64bit kernels?
On 64-bit x86-64 the split is half to half - i.e. if first bit of address is 0 it's userspace if it is 1 it's kernel space.
In theory it's 8 Exbibytes each (1024*1024 TiB). However only 48-bits are implemented in processors now - the first 16 bits must either be all 1 or all 0 (this makes implementation cheaper as TLB and other components can save space). This gives 'merly' 128 TiB for userspace and 256 TiB for kernelspace. However the extension to full 64-bit kernel space with split 8/8 EiB is perfectly possible in future in backward compatible way.
If this post is correct, its a 1:1 split - 128TiB for each of kernel space and userspace.