Rob Doyle wrote:
What exactly are the architectural differences between
a KS and KL?
The KL10 came in two versions, referred to as "Model A" and "Model
B".[*]
The difference is that the Model A supports the traditional 256KW user
address space, as was found on the earlier KI10 and KS10. The Model B
adds the concept of "sections", which adds another 12 bits to the
logical address, although the KL10 Model B only implements 5 of them,
for a maximum of 32 sections. This expands the user address space to 8
Mwords.
Multiple section support involves changes to the way paging works,
introducing an additional level of tables. It also adds complications
to indirect words, byte pointers, and the PXCT instruction, among other
things.
The KS10 does not support multiple sections. Its data paths were not
designed for it, so there is no efficient way to add multiple section
support merely by adding microcode. From a non-system programmer's
perspective, the KS10 is similar to a KL10 Model A.
The later versions of TOPS-20 simply got too big to fit well on a
single-section machine.
Eric
[*] Note that the "Model A" and "Model B" terminology does not
directly
correlate with a letter suffix on a KL10 ordering code, like KL10-A. In
fact, the KL10-A, KL10-B, KL10-BC, and KL10-C were all equipped with the
"Model A" APR ("Arithmetic PRocessor, which anyone else calls CPU),
while the KL10-D, KL10-E, and KL10-R were equipped with the "Model B"
APR. It gets even more complicated when field upgrades are considered.
In hardware terms, the "Model A" has a KL10-PA APR. The "Model B" as
a
KL10-PV or (later) KL10-PW APR. In addition to the multisection
support, the KL10-PV also runs at a higher clock frequency than the
KL10-PA. The KL10-PW (standard in 1095 and 2065 systems, or available
as an upgrade from the KL10-PV) has a larger cache and larger pager TLB,
so it increases the performance slightly more, but doesn't change the
programmer's model significantly.