CONTAINERS
protobuf:cpp |
|
---|---|
Aliases | protobuf |
Builds | |
Requires | L4T ['>=32.6'] |
Dependencies | build-essential python |
Dependants | audiocraft l4t-ml l4t-tensorflow:tf1 l4t-tensorflow:tf2 tensorflow tensorflow2 voicecraft |
Dockerfile | Dockerfile |
Images | dustynv/protobuf:cpp-r32.7.1 (2023-12-06, 0.5GB) dustynv/protobuf:cpp-r35.2.1 (2023-12-06, 5.1GB) dustynv/protobuf:cpp-r35.3.1 (2023-08-29, 5.1GB) dustynv/protobuf:cpp-r35.4.1 (2023-10-07, 5.1GB) |
Notes | build protobuf using cpp implementation (https://jkjung-avt.github.io/tf-trt-revisited/) |
RUN CONTAINER
To start the container, you can use jetson-containers run
and autotag
, or manually put together a docker run
command:
# automatically pull or build a compatible container image
jetson-containers run $(autotag protobuf_cpp)
# or if using 'docker run' (specify image and mounts/ect)
sudo docker run --runtime nvidia -it --rm --network=host protobuf_cpp:35.2.1
jetson-containers run
forwards arguments todocker run
with some defaults added (like--runtime nvidia
, mounts a/data
cache, and detects devices)
autotag
finds a container image that's compatible with your version of JetPack/L4T - either locally, pulled from a registry, or by building it.
To mount your own directories into the container, use the -v
or --volume
flags:
jetson-containers run -v /path/on/host:/path/in/container $(autotag protobuf_cpp)
To launch the container running a command, as opposed to an interactive shell:
jetson-containers run $(autotag protobuf_cpp) my_app --abc xyz
You can pass any options to it that you would to docker run
, and it'll print out the full command that it constructs before executing it.
BUILD CONTAINER
If you use autotag
as shown above, it'll ask to build the container for you if needed. To manually build it, first do the system setup, then run:
jetson-containers build protobuf_cpp
The dependencies from above will be built into the container, and it'll be tested during. Run it with --help
for build options.