I already posted part c) here
but I am still stuck with parts d and e
(c) A subset of the instructions for a machine M can be accelerated by n times using a coprocessor C. Given that a program P is compiled into instructions of M such that a fraction k belongs to this subset, what is the overall speedup that can be achieved using C with M?
(d) Given that the coprocessor C in part (c) above costs j times as much as M, calcu- late the minimum fraction of instructions for a program that C has to accelerate so that the combined system of M and C is j times faster than M.
If I have
j = 1 / ((1-k)+k/j) (i.e.
j times faster) I end up with
j = 1 if I simplify the formula, which is clearly wrong
(e) Given that the performance of M is improving by m times per month, how many months will pass before M alone (without the coprocessor C) can execute the program P in part (c) as fast as the current combined system of M and C?
Is this just
m = (1-k) + k/n?