From f87d81287c138ebd903a03c718a7c9bcf2ff8f65 Mon Sep 17 00:00:00 2001 From: Clifford Wolf Date: Fri, 26 Jun 2015 11:01:34 +0200 Subject: More README changes --- README.md | 14 ++++++++++---- 1 file changed, 10 insertions(+), 4 deletions(-) diff --git a/README.md b/README.md index b812f56..315e902 100644 --- a/README.md +++ b/README.md @@ -134,17 +134,23 @@ For the Dhrystone benchmark the average CPI is 4.167. Custom Instructions for IRQ Handling ------------------------------------ -The following custom instructions are supported when IRQs are enabled. +*Note: The IRQ handling features in PicoRV32 do not follow the RISC-V +Privileged ISA specification. Instead a small set of very simple custom +instructions is used to implement IRQ handling with minimal hardware +overhead.* + +The following custom instructions are only supported when IRQs are enabled +via the `ENABLE_IRQ` parameter (see above). The PicoRV32 core has a built-in interrupt controller with 32 interrupts. An interrupt can be triggered by asserting the corresponding bit in the `irq` input of the core. When the interrupt handler is started, the `eoi` End Of Interrupt (EOI) signals -for the handled interrupts goes high. The `eoi` signal goes low again when the +for the handled interrupts go high. The `eoi` signals go low again when the interrupt handler returns. -The IRQs 0-2 can be triggered internally and have the following meaning: +The IRQs 0-2 can be triggered internally by the following built-in interrupt sources: | IRQ | Interrupt Source | | ---:| -----------------------------------| @@ -155,7 +161,7 @@ The IRQs 0-2 can be triggered internally and have the following meaning: The core has 4 additional 32-bit registers `q0 .. q3` that are used for IRQ handling. When an IRQ triggers, the register `q0` contains the return address and `q1` contains a bitmask of all active IRQs. This means one call to the interrupt -handler might need to service one than more IRQ when more than one bit is set +handler might need to service more than one IRQ when more than one bit is set in `q1`. Registers `q2` and `q3` are uninitialized and can be used as temporary storage -- cgit