c05564c4d8
Android 13
498 lines
17 KiB
Plaintext
Executable file
498 lines
17 KiB
Plaintext
Executable file
FPGA Region Device Tree Binding
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Alan Tull 2016
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CONTENTS
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- Introduction
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- Terminology
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- Sequence
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- FPGA Region
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- Supported Use Models
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- Device Tree Examples
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- Constraints
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Introduction
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============
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FPGA Regions represent FPGA's and partial reconfiguration regions of FPGA's in
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the Device Tree. FPGA Regions provide a way to program FPGAs under device tree
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control.
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This device tree binding document hits some of the high points of FPGA usage and
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attempts to include terminology used by both major FPGA manufacturers. This
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document isn't a replacement for any manufacturers specifications for FPGA
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usage.
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Terminology
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===========
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Full Reconfiguration
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* The entire FPGA is programmed.
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Partial Reconfiguration (PR)
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* A section of an FPGA is reprogrammed while the rest of the FPGA is not
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affected.
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* Not all FPGA's support PR.
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Partial Reconfiguration Region (PRR)
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* Also called a "reconfigurable partition"
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* A PRR is a specific section of a FPGA reserved for reconfiguration.
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* A base (or static) FPGA image may create a set of PRR's that later may
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be independently reprogrammed many times.
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* The size and specific location of each PRR is fixed.
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* The connections at the edge of each PRR are fixed. The image that is loaded
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into a PRR must fit and must use a subset of the region's connections.
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* The busses within the FPGA are split such that each region gets its own
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branch that may be gated independently.
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Persona
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* Also called a "partial bit stream"
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* An FPGA image that is designed to be loaded into a PRR. There may be
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any number of personas designed to fit into a PRR, but only one at at time
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may be loaded.
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* A persona may create more regions.
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FPGA Bridge
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* FPGA Bridges gate bus signals between a host and FPGA.
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* FPGA Bridges should be disabled while the FPGA is being programmed to
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prevent spurious signals on the cpu bus and to the soft logic.
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* FPGA bridges may be actual hardware or soft logic on an FPGA.
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* During Full Reconfiguration, hardware bridges between the host and FPGA
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will be disabled.
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* During Partial Reconfiguration of a specific region, that region's bridge
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will be used to gate the busses. Traffic to other regions is not affected.
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* In some implementations, the FPGA Manager transparantly handles gating the
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buses, eliminating the need to show the hardware FPGA bridges in the
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device tree.
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* An FPGA image may create a set of reprogrammable regions, each having its
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own bridge and its own split of the busses in the FPGA.
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FPGA Manager
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* An FPGA Manager is a hardware block that programs an FPGA under the control
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of a host processor.
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Base Image
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* Also called the "static image"
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* An FPGA image that is designed to do full reconfiguration of the FPGA.
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* A base image may set up a set of partial reconfiguration regions that may
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later be reprogrammed.
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---------------- ----------------------------------
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| Host CPU | | FPGA |
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| | | |
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| ----| | ----------- -------- |
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| | H | | |==>| Bridge0 |<==>| PRR0 | |
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| | W | | | ----------- -------- |
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| | | | | |
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| | B |<=====>|<==| ----------- -------- |
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| | R | | |==>| Bridge1 |<==>| PRR1 | |
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| | I | | | ----------- -------- |
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| | D | | | |
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| | G | | | ----------- -------- |
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| | E | | |==>| Bridge2 |<==>| PRR2 | |
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| ----| | ----------- -------- |
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| | | |
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---------------- ----------------------------------
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Figure 1: An FPGA set up with a base image that created three regions. Each
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region (PRR0-2) gets its own split of the busses that is independently gated by
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a soft logic bridge (Bridge0-2) in the FPGA. The contents of each PRR can be
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reprogrammed independently while the rest of the system continues to function.
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Sequence
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========
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When a DT overlay that targets a FPGA Region is applied, the FPGA Region will
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do the following:
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1. Disable appropriate FPGA bridges.
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2. Program the FPGA using the FPGA manager.
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3. Enable the FPGA bridges.
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4. The Device Tree overlay is accepted into the live tree.
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5. Child devices are populated.
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When the overlay is removed, the child nodes will be removed and the FPGA Region
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will disable the bridges.
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FPGA Region
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===========
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FPGA Regions represent FPGA's and FPGA PR regions in the device tree. An FPGA
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Region brings together the elements needed to program on a running system and
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add the child devices:
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* FPGA Manager
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* FPGA Bridges
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* image-specific information needed to to the programming.
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* child nodes
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The intended use is that a Device Tree overlay (DTO) can be used to reprogram an
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FPGA while an operating system is running.
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An FPGA Region that exists in the live Device Tree reflects the current state.
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If the live tree shows a "firmware-name" property or child nodes under a FPGA
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Region, the FPGA already has been programmed. A DTO that targets a FPGA Region
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and adds the "firmware-name" property is taken as a request to reprogram the
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FPGA. After reprogramming is successful, the overlay is accepted into the live
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tree.
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The base FPGA Region in the device tree represents the FPGA and supports full
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reconfiguration. It must include a phandle to an FPGA Manager. The base
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FPGA region will be the child of one of the hardware bridges (the bridge that
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allows register access) between the cpu and the FPGA. If there are more than
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one bridge to control during FPGA programming, the region will also contain a
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list of phandles to the additional hardware FPGA Bridges.
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For partial reconfiguration (PR), each PR region will have an FPGA Region.
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These FPGA regions are children of FPGA bridges which are then children of the
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base FPGA region. The "Full Reconfiguration to add PRR's" example below shows
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this.
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If an FPGA Region does not specify a FPGA Manager, it will inherit the FPGA
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Manager specified by its ancestor FPGA Region. This supports both the case
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where the same FPGA Manager is used for all of a FPGA as well the case where
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a different FPGA Manager is used for each region.
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FPGA Regions do not inherit their ancestor FPGA regions' bridges. This prevents
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shutting down bridges that are upstream from the other active regions while one
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region is getting reconfigured (see Figure 1 above). During PR, the FPGA's
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hardware bridges remain enabled. The PR regions' bridges will be FPGA bridges
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within the static image of the FPGA.
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Required properties:
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- compatible : should contain "fpga-region"
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- fpga-mgr : should contain a phandle to an FPGA Manager. Child FPGA Regions
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inherit this property from their ancestor regions. A fpga-mgr property
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in a region will override any inherited FPGA manager.
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- #address-cells, #size-cells, ranges : must be present to handle address space
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mapping for child nodes.
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Optional properties:
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- firmware-name : should contain the name of an FPGA image file located on the
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firmware search path. If this property shows up in a live device tree
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it indicates that the FPGA has already been programmed with this image.
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If this property is in an overlay targeting a FPGA region, it is a
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request to program the FPGA with that image.
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- fpga-bridges : should contain a list of phandles to FPGA Bridges that must be
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controlled during FPGA programming along with the parent FPGA bridge.
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This property is optional if the FPGA Manager handles the bridges.
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If the fpga-region is the child of a fpga-bridge, the list should not
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contain the parent bridge.
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- partial-fpga-config : boolean, set if partial reconfiguration is to be done,
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otherwise full reconfiguration is done.
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- external-fpga-config : boolean, set if the FPGA has already been configured
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prior to OS boot up.
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- encrypted-fpga-config : boolean, set if the bitstream is encrypted
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- region-unfreeze-timeout-us : The maximum time in microseconds to wait for
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bridges to successfully become enabled after the region has been
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programmed.
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- region-freeze-timeout-us : The maximum time in microseconds to wait for
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bridges to successfully become disabled before the region has been
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programmed.
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- config-complete-timeout-us : The maximum time in microseconds time for the
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FPGA to go to operating mode after the region has been programmed.
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- child nodes : devices in the FPGA after programming.
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In the example below, when an overlay is applied targeting fpga-region0,
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fpga_mgr is used to program the FPGA. Two bridges are controlled during
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programming: the parent fpga_bridge0 and fpga_bridge1. Because the region is
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the child of fpga_bridge0, only fpga_bridge1 needs to be specified in the
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fpga-bridges property. During programming, these bridges are disabled, the
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firmware specified in the overlay is loaded to the FPGA using the FPGA manager
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specified in the region. If FPGA programming succeeds, the bridges are
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reenabled and the overlay makes it into the live device tree. The child devices
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are then populated. If FPGA programming fails, the bridges are left disabled
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and the overlay is rejected. The overlay's ranges property maps the lwhps
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bridge's region (0xff200000) and the hps bridge's region (0xc0000000) for use by
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the two child devices.
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Example:
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Base tree contains:
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fpga_mgr: fpga-mgr@ff706000 {
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compatible = "altr,socfpga-fpga-mgr";
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reg = <0xff706000 0x1000
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0xffb90000 0x20>;
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interrupts = <0 175 4>;
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};
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fpga_bridge0: fpga-bridge@ff400000 {
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compatible = "altr,socfpga-lwhps2fpga-bridge";
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reg = <0xff400000 0x100000>;
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resets = <&rst LWHPS2FPGA_RESET>;
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clocks = <&l4_main_clk>;
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#address-cells = <1>;
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#size-cells = <1>;
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ranges;
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fpga_region0: fpga-region0 {
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compatible = "fpga-region";
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fpga-mgr = <&fpga_mgr>;
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};
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};
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fpga_bridge1: fpga-bridge@ff500000 {
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compatible = "altr,socfpga-hps2fpga-bridge";
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reg = <0xff500000 0x10000>;
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resets = <&rst HPS2FPGA_RESET>;
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clocks = <&l4_main_clk>;
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};
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Overlay contains:
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/dts-v1/ /plugin/;
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/ {
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fragment@0 {
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target = <&fpga_region0>;
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#address-cells = <1>;
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#size-cells = <1>;
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__overlay__ {
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#address-cells = <1>;
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#size-cells = <1>;
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firmware-name = "soc_system.rbf";
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fpga-bridges = <&fpga_bridge1>;
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ranges = <0x20000 0xff200000 0x100000>,
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<0x0 0xc0000000 0x20000000>;
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gpio@10040 {
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compatible = "altr,pio-1.0";
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reg = <0x10040 0x20>;
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altr,gpio-bank-width = <4>;
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#gpio-cells = <2>;
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clocks = <2>;
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gpio-controller;
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};
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onchip-memory {
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device_type = "memory";
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compatible = "altr,onchipmem-15.1";
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reg = <0x0 0x10000>;
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};
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};
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};
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};
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Supported Use Models
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====================
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In all cases the live DT must have the FPGA Manager, FPGA Bridges (if any), and
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a FPGA Region. The target of the Device Tree Overlay is the FPGA Region. Some
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uses are specific to a FPGA device.
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* No FPGA Bridges
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In this case, the FPGA Manager which programs the FPGA also handles the
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bridges behind the scenes. No FPGA Bridge devices are needed for full
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reconfiguration.
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* Full reconfiguration with hardware bridges
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In this case, there are hardware bridges between the processor and FPGA that
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need to be controlled during full reconfiguration. Before the overlay is
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applied, the live DT must include the FPGA Manager, FPGA Bridges, and a
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FPGA Region. The FPGA Region is the child of the bridge that allows
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register access to the FPGA. Additional bridges may be listed in a
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fpga-bridges property in the FPGA region or in the device tree overlay.
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* Partial reconfiguration with bridges in the FPGA
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In this case, the FPGA will have one or more PRR's that may be programmed
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separately while the rest of the FPGA can remain active. To manage this,
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bridges need to exist in the FPGA that can gate the buses going to each FPGA
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region while the buses are enabled for other sections. Before any partial
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reconfiguration can be done, a base FPGA image must be loaded which includes
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PRR's with FPGA bridges. The device tree should have a FPGA region for each
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PRR.
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Device Tree Examples
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====================
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The intention of this section is to give some simple examples, focusing on
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the placement of the elements detailed above, especially:
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* FPGA Manager
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* FPGA Bridges
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* FPGA Region
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* ranges
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* target-path or target
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For the purposes of this section, I'm dividing the Device Tree into two parts,
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each with its own requirements. The two parts are:
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* The live DT prior to the overlay being added
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* The DT overlay
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The live Device Tree must contain an FPGA Region, an FPGA Manager, and any FPGA
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Bridges. The FPGA Region's "fpga-mgr" property specifies the manager by phandle
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to handle programming the FPGA. If the FPGA Region is the child of another FPGA
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Region, the parent's FPGA Manager is used. If FPGA Bridges need to be involved,
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they are specified in the FPGA Region by the "fpga-bridges" property. During
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FPGA programming, the FPGA Region will disable the bridges that are in its
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"fpga-bridges" list and will re-enable them after FPGA programming has
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succeeded.
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The Device Tree Overlay will contain:
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* "target-path" or "target"
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The insertion point where the the contents of the overlay will go into the
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live tree. target-path is a full path, while target is a phandle.
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* "ranges"
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The address space mapping from processor to FPGA bus(ses).
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* "firmware-name"
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Specifies the name of the FPGA image file on the firmware search
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path. The search path is described in the firmware class documentation.
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* "partial-fpga-config"
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This binding is a boolean and should be present if partial reconfiguration
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is to be done.
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* child nodes corresponding to hardware that will be loaded in this region of
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the FPGA.
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Device Tree Example: Full Reconfiguration without Bridges
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=========================================================
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Live Device Tree contains:
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fpga_mgr0: fpga-mgr@f8007000 {
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compatible = "xlnx,zynq-devcfg-1.0";
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reg = <0xf8007000 0x100>;
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interrupt-parent = <&intc>;
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interrupts = <0 8 4>;
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clocks = <&clkc 12>;
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clock-names = "ref_clk";
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syscon = <&slcr>;
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};
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fpga_region0: fpga-region0 {
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compatible = "fpga-region";
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fpga-mgr = <&fpga_mgr0>;
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#address-cells = <0x1>;
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#size-cells = <0x1>;
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ranges;
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};
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DT Overlay contains:
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/dts-v1/ /plugin/;
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/ {
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fragment@0 {
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target = <&fpga_region0>;
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#address-cells = <1>;
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#size-cells = <1>;
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__overlay__ {
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#address-cells = <1>;
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#size-cells = <1>;
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firmware-name = "zynq-gpio.bin";
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gpio1: gpio@40000000 {
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compatible = "xlnx,xps-gpio-1.00.a";
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reg = <0x40000000 0x10000>;
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gpio-controller;
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#gpio-cells = <0x2>;
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xlnx,gpio-width= <0x6>;
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};
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};
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};
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Device Tree Example: Full Reconfiguration to add PRR's
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======================================================
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The base FPGA Region is specified similar to the first example above.
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This example programs the FPGA to have two regions that can later be partially
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configured. Each region has its own bridge in the FPGA fabric.
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DT Overlay contains:
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/dts-v1/ /plugin/;
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/ {
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fragment@0 {
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target = <&fpga_region0>;
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#address-cells = <1>;
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#size-cells = <1>;
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__overlay__ {
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#address-cells = <1>;
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#size-cells = <1>;
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firmware-name = "base.rbf";
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fpga-bridge@4400 {
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compatible = "altr,freeze-bridge";
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reg = <0x4400 0x10>;
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fpga_region1: fpga-region1 {
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compatible = "fpga-region";
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#address-cells = <0x1>;
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#size-cells = <0x1>;
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ranges;
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};
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};
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fpga-bridge@4420 {
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compatible = "altr,freeze-bridge";
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reg = <0x4420 0x10>;
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fpga_region2: fpga-region2 {
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compatible = "fpga-region";
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#address-cells = <0x1>;
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#size-cells = <0x1>;
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ranges;
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};
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};
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};
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};
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};
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Device Tree Example: Partial Reconfiguration
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============================================
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This example reprograms one of the PRR's set up in the previous example.
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The sequence that occurs when this overlay is similar to the above, the only
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differences are that the FPGA is partially reconfigured due to the
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"partial-fpga-config" boolean and the only bridge that is controlled during
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programming is the FPGA based bridge of fpga_region1.
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/dts-v1/ /plugin/;
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/ {
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fragment@0 {
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target = <&fpga_region1>;
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#address-cells = <1>;
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#size-cells = <1>;
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__overlay__ {
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#address-cells = <1>;
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#size-cells = <1>;
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firmware-name = "soc_image2.rbf";
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partial-fpga-config;
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gpio@10040 {
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compatible = "altr,pio-1.0";
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reg = <0x10040 0x20>;
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clocks = <0x2>;
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altr,gpio-bank-width = <0x4>;
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resetvalue = <0x0>;
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#gpio-cells = <0x2>;
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gpio-controller;
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};
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};
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};
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};
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Constraints
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===========
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It is beyond the scope of this document to fully describe all the FPGA design
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constraints required to make partial reconfiguration work[1] [2] [3], but a few
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deserve quick mention.
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A persona must have boundary connections that line up with those of the partion
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or region it is designed to go into.
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During programming, transactions through those connections must be stopped and
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the connections must be held at a fixed logic level. This can be achieved by
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FPGA Bridges that exist on the FPGA fabric prior to the partial reconfiguration.
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--
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[1] www.altera.com/content/dam/altera-www/global/en_US/pdfs/literature/ug/ug_partrecon.pdf
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[2] tspace.library.utoronto.ca/bitstream/1807/67932/1/Byma_Stuart_A_201411_MAS_thesis.pdf
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[3] http://www.xilinx.com/support/documentation/sw_manuals/xilinx14_1/ug702.pdf
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