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path: root/src/mem/coherent_bus.cc
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2012-07-09Port: Align port names in C++ and PythonAndreas Hansson
This patch is a first step to align the port names used in the Python world and the C++ world. Ultimately it serves to make the use of config.json together with output from the simulation easier, including post-processing of statistics. Most notably, the CPU, cache, and bus is addressed in this patch, and there might be other ports that should be updated accordingly. The dash name separator has also been replaced with a "." which is what is used to concatenate the names in python, and a separation is made between the master and slave port in the bus.
2012-07-09Bus: Split the bus into separate request/response layersAndreas Hansson
This patch splits the existing buses into multiple layers. The non-coherent bus is split into a request and a response layer, and the coherent bus adds an additional layer for the snoop responses. The layer is modified to be templatised on the port type, such that the different layers can have retryLists with either master or slave ports. This patch also removes the dynamic cast from the retry, as previously promised when moving the recvRetry from the port base class to the master/slave port respectively. Overall, the split bus more closely reflects any modern on-chip bus and should be at step in the right direction. From this point, it would be reasonable straight forward to add separate layers (and thus contention points and arbitration) for each port and thus create a true crossbar. The regressions all produce the correct output, but have varying degrees of changes to their statistics. A separate patch will be pushed with the updates to the reference statistics.
2012-07-09Bus: Add a notion of layers to the busesAndreas Hansson
This patch moves all flow control, arbitration and state information into a bus layer. The layer is thus responsible for all the state transitions, and for keeping hold of the retry list. Consequently the layer is also responsible for the draining. With this change, the non-coherent and coherent bus are given a single layer to avoid changing any temporal behaviour, but the patch opens up for adding more layers.
2012-07-09Bus: Replace tickNextIdle and inRetry with a state variableAndreas Hansson
This patch adds a state enum and member variable in the bus, tracking the bus state, thus eliminating the need for tickNextIdle and inRetry, and fixing an issue that allowed the bus to be occupied by multiple packets at once (hopefully it also makes it easier to understand the code). The bus, in its current form, uses tickNextIdle and inRetry to keep track of the state of the bus. However, it only updates tickNextIdle _after_ forwarding a packet using sendTiming, and the result is that the bus is still seen as idle, and a module that receives the packet and starts transmitting new packets in zero time will still see the bus as idle (and this is done by a number of DMA devices). The issue can also be seen in isOccupied where the bus calls reschedule on an event instead of schedule. This patch addresses the problem by marking the bus as _not_ idle already by the time we conclude that the bus is not occupied and we will deal with the packet. As a result of not allowing multiple packets to occupy the bus, some regressions have slight changes in their statistics. A separate patch updates these accordingly. Further ahead, a follow-on patch will introduce a separate state variable for request/responses/snoop responses, and thus implement a split request/response bus with separate flow control for the different message types (even further ahead it will introduce a multi-layer bus).
2012-07-09Port: Add isSnooping to slave port (asking master port)Andreas Hansson
This patch adds isSnooping to the slave port, and thus avoids going through getMasterPort to be able to ask the master. Over the course of the next few patches, all getMasterPort/getSlavePort in Port and MemObject are to be protocol agnostic, and the snooping is part of the protocol layer. The function is already present on the master port, where it is implemented by the module itself, e.g. a cache. On the slave side, it is merely asking the connected master port. The same name is used by both functions despite their difference in behaviour. The initial design used isMasterSnooping on the slave port side, but the more verbose function name was later changed.
2012-05-31Bus: Split the bus into a non-coherent and coherent busAndreas Hansson
This patch introduces a class hierarchy of buses, a non-coherent one, and a coherent one, splitting the existing bus functionality. By doing so it also enables further specialisation of the two types of buses. A non-coherent bus connects a number of non-snooping masters and slaves, and routes the request and response packets based on the address. The request packets issued by the master connected to a non-coherent bus could still snoop in caches attached to a coherent bus, as is the case with the I/O bus and memory bus in most system configurations. No snoops will, however, reach any master on the non-coherent bus itself. The non-coherent bus can be used as a template for modelling PCI, PCIe, and non-coherent AMBA and OCP buses, and is typically used for the I/O buses. A coherent bus connects a number of (potentially) snooping masters and slaves, and routes the request and response packets based on the address, and also forwards all requests to the snoopers and deals with the snoop responses. The coherent bus can be used as a template for modelling QPI, HyperTransport, ACE and coherent OCP buses, and is typically used for the L1-to-L2 buses and as the main system interconnect. The configuration scripts are updated to use a NoncoherentBus for all peripheral and I/O buses. A bit of minor tidying up has also been done. --HG-- rename : src/mem/bus.cc => src/mem/coherent_bus.cc rename : src/mem/bus.hh => src/mem/coherent_bus.hh rename : src/mem/bus.cc => src/mem/noncoherent_bus.cc rename : src/mem/bus.hh => src/mem/noncoherent_bus.hh