| # Copyright (c) 2024 Intel Corp. |
| # SPDX-License-Identifier: Apache-2.0 |
| # |
| menu "SMP Options" |
| |
| config SMP |
| bool "Symmetric multiprocessing support" |
| depends on USE_SWITCH |
| depends on !ATOMIC_OPERATIONS_C |
| help |
| When true, kernel will be built with SMP support, allowing |
| more than one CPU to schedule Zephyr tasks at a time. |
| |
| config USE_SWITCH |
| bool "Use new-style _arch_switch instead of arch_swap" |
| depends on USE_SWITCH_SUPPORTED |
| help |
| The _arch_switch() API is a lower level context switching |
| primitive than the original arch_swap mechanism. It is required |
| for an SMP-aware scheduler, or if the architecture does not |
| provide arch_swap. In uniprocess situations where the |
| architecture provides both, _arch_switch incurs more somewhat |
| overhead and may be slower. |
| |
| config USE_SWITCH_SUPPORTED |
| bool |
| help |
| Indicates whether _arch_switch() API is supported by the |
| currently enabled platform. This option should be selected by |
| platforms that implement it. |
| |
| config SMP_BOOT_DELAY |
| bool "Delay booting secondary cores" |
| depends on SMP |
| help |
| By default Zephyr will boot all available CPUs during start up. |
| Select this option to skip this and allow custom code |
| (architecture/SoC/board/application) to boot secondary CPUs at |
| a later time. |
| |
| config MP_NUM_CPUS |
| int "Number of CPUs/cores [DEPRECATED]" |
| default MP_MAX_NUM_CPUS |
| range 1 12 |
| help |
| This is deprecated, please use MP_MAX_NUM_CPUS instead. |
| |
| config MP_MAX_NUM_CPUS |
| int "Maximum number of CPUs/cores" |
| default 1 |
| range 1 12 |
| help |
| Maximum number of multiprocessing-capable cores available to the |
| multicpu API and SMP features. |
| |
| config SCHED_IPI_SUPPORTED |
| bool |
| help |
| True if the architecture supports a call to arch_sched_broadcast_ipi() |
| to broadcast an interrupt that will call z_sched_ipi() on other CPUs |
| in the system. Required for k_thread_abort() to operate with |
| reasonable latency (otherwise we might have to wait for the other |
| thread to take an interrupt, which can be arbitrarily far in the |
| future). |
| |
| config SCHED_IPI_CASCADE |
| bool "Use cascading IPIs to correct localized scheduling" |
| depends on SCHED_CPU_MASK && !SCHED_CPU_MASK_PIN_ONLY |
| default n |
| help |
| Threads that are preempted by a local thread (a thread that is |
| restricted by its CPU mask to execute on a subset of all CPUs) may |
| trigger additional IPIs when the preempted thread is of higher |
| priority than a currently executing thread on another CPU. Although |
| these cascading IPIs will ensure that the system will settle upon a |
| valid set of high priority threads, it comes at a performance cost. |
| |
| config TRACE_SCHED_IPI |
| bool "Test IPI" |
| help |
| When true, it will add a hook into z_sched_ipi(), in order |
| to check if schedule IPI has called or not, for testing |
| purpose. |
| depends on SCHED_IPI_SUPPORTED |
| depends on MP_MAX_NUM_CPUS>1 |
| |
| config IPI_OPTIMIZE |
| bool "Optimize IPI delivery" |
| default n |
| depends on SCHED_IPI_SUPPORTED && MP_MAX_NUM_CPUS>1 |
| help |
| When selected, the kernel will attempt to determine the minimum |
| set of CPUs that need an IPI to trigger a reschedule in response to |
| a thread newly made ready for execution. This increases the |
| computation required at every scheduler operation by a value that is |
| O(N) in the number of CPUs, and in exchange reduces the number of |
| interrupts delivered. Which to choose is going to depend on |
| application behavior. If the architecture also supports directing |
| IPIs to specific CPUs then this has the potential to significantly |
| reduce the number of IPIs (and consequently ISRs) processed by the |
| system as the number of CPUs increases. If not, the only benefit |
| would be to not issue any IPIs if the newly readied thread is of |
| lower priority than all the threads currently executing on other CPUs. |
| |
| config KERNEL_COHERENCE |
| bool "Place all shared data into coherent memory" |
| depends on ARCH_HAS_COHERENCE |
| default y if SMP && MP_MAX_NUM_CPUS > 1 |
| select THREAD_STACK_INFO |
| help |
| When available and selected, the kernel will build in a mode |
| where all shared data is placed in multiprocessor-coherent |
| (generally "uncached") memory. Thread stacks will remain |
| cached, as will application memory declared with |
| __incoherent. This is intended for Zephyr SMP kernels |
| running on cache-incoherent architectures only. Note that |
| when this is selected, there is an implicit API change that |
| assumes cache coherence to any memory passed to the kernel. |
| Code that creates kernel data structures in uncached regions |
| may fail strangely. Some assertions exist to catch these |
| mistakes, but not all circumstances can be tested. |
| |
| config TICKET_SPINLOCKS |
| bool "Ticket spinlocks for lock acquisition fairness [EXPERIMENTAL]" |
| select EXPERIMENTAL |
| help |
| Basic spinlock implementation is based on single |
| atomic variable and doesn't guarantee locking fairness |
| across multiple CPUs. It's even possible that single CPU |
| will win the contention every time which will result |
| in a live-lock. |
| Ticket spinlocks provide a FIFO order of lock acquisition |
| which resolves such unfairness issue at the cost of slightly |
| increased memory footprint. |
| |
| endmenu |
