Most modern out-of-order CPUs are inherently out-of-order, without switching possible between in-order and out-of-order modes.
You can try to find some in-order CPU, and there are some:
- x86: Intel Atom (only 45 nm and older versions; they have two parallel pipelines but executes all instructions in order)
- arm: Cortex-A8, and many older cores;
While it is not possible to directly turn off instruction reordering in the typical out-of-order CPU, you can inject something serializing (like
cpuid in x86 world) between every your instruction to simulate in-order execution.
There is a part of Intel manuals (vol 3a) about serializing instructions (copied from http://objectmix.com/asm-x86-asm-370/69413-serializing-instructions.html):
Volume 3A: System Programming Guide states
7.4 SERIALIZING INSTRUCTIONS
The Intel 64 and IA-32 architectures define several serializing
instructions. These instructions force the processor to complete all
modifications to flags, registers, and memory by previous instructions
and to drain all buffered writes to memory before the next instruction
is fetched and executed. For example, when a MOV to control register
instruction is used to load a new value into control register CR0 to
enable protected mode, the processor must perform a serializing
operation before it enters protected mode. This serializing operation
insures that all operations that were started while the processor was
in real-address mode are completed before the switch to protected
mode is made.
The concept of serializing instructions was introduced into the IA-32
architecture with the Pentium processor to support parallel
instruction execution. Serializing instructions have no meaning for
the Intel486 and earlier processors that do not implement parallel
It is important to note that executing of serializing instructions on
P6 and more recent processor families constrain speculative execution
because the results of speculatively executed instructions are
discarded. The following instructions are serializing instructions:
o Privileged serializing instructions - MOV (to control register,
with the exception of MOV CR8), MOV (to debug register), WRMSR, INVD,
INVLPG, WBINVD, LGDT, LLDT, LIDT, and LTR.
o Non-privileged serializing instructions - CPUID, IRET, and RSM.
When the processor serializes instruction execution, it ensures that
all pending memory transactions are completed (including writes
stored in its store buffer) before it executes the next instruction.
Nothing can pass a serializing instruction and a serializing
instruction cannot pass any other instruction (read, write,
instruction fetch, or I/O). For example, CPUID can be executed at any
privilege level to serialize instruction execution with no effect on
program flow, except that the EAX, EBX, ECX, and EDX registers are