Old UNIX ran all device interrupts on the single CPU. On SMP, interrupt routing is critical. Modern architectures (PCI-based Intel MP spec 1.1, SGI's IRIX, Sun's SBus) support interrupt vectors that can be directed to any CPU.
The traditional BSD scheduler (O(N) priority recalculation every second) is fatal on a 16-CPU system. The 4.4BSD-Lite scheduler, while improved, still requires a global lock on the run queue.
The traditional UNIX buffer cache—a pool of memory pages used to cache disk blocks—is obsolete on modern architectures for two reasons. First, the virtual memory system can now page directly from the filesystem (using mmap() and clustered pageins). Second, on SMP systems, the buffer cache lock becomes a global bottleneck.
By 1994, the 4GB virtual address space of 32-bit UNIX is a cage. Database servers (Oracle 7, Informix OnLine) want to map 64GB of shared memory for buffer pools. The Alpha AXP (OSF/1), UltraSPARC (Solaris 2.4 preview), and MIPS R8000 (IRIX 6) all offer full 64-bit kernels.
UNIX System V Release 4.0 MP (1991) was a disaster. It used a single "master lock" around the entire kernel. On a 4x Intel 486, performance was worse than on a single CPU because of lock contention on the run queue and buffer cache.
Old UNIX ran all device interrupts on the single CPU. On SMP, interrupt routing is critical. Modern architectures (PCI-based Intel MP spec 1.1, SGI's IRIX, Sun's SBus) support interrupt vectors that can be directed to any CPU.
The traditional BSD scheduler (O(N) priority recalculation every second) is fatal on a 16-CPU system. The 4.4BSD-Lite scheduler, while improved, still requires a global lock on the run queue.
The traditional UNIX buffer cache—a pool of memory pages used to cache disk blocks—is obsolete on modern architectures for two reasons. First, the virtual memory system can now page directly from the filesystem (using mmap() and clustered pageins). Second, on SMP systems, the buffer cache lock becomes a global bottleneck.
By 1994, the 4GB virtual address space of 32-bit UNIX is a cage. Database servers (Oracle 7, Informix OnLine) want to map 64GB of shared memory for buffer pools. The Alpha AXP (OSF/1), UltraSPARC (Solaris 2.4 preview), and MIPS R8000 (IRIX 6) all offer full 64-bit kernels.
UNIX System V Release 4.0 MP (1991) was a disaster. It used a single "master lock" around the entire kernel. On a 4x Intel 486, performance was worse than on a single CPU because of lock contention on the run queue and buffer cache.
