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* [dpdk-dev] [RFC PATCH 0/1] mldev: introduce machine learning device library
@ 2022-08-03 13:28 jerinj
  2022-08-03 13:28 ` [dpdk-dev] [RFC PATCH 1/1] " jerinj
  2022-08-03 15:19 ` [dpdk-dev] [RFC PATCH 0/1] " Stephen Hemminger
  0 siblings, 2 replies; 80+ messages in thread
From: jerinj @ 2022-08-03 13:28 UTC (permalink / raw)
  To: dev
  Cc: thomas, ferruh.yigit, ajit.khaparde, aboyer, andrew.rybchenko,
	beilei.xing, bruce.richardson, chas3, chenbo.xia, ciara.loftus,
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	matt.peters, maxime.coquelin, mk, humin29, pnalla, ndabilpuram,
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	steven.webster, skori, mtetsuyah, vburru, viacheslavo,
	xiao.w.wang, cloud.wangxiaoyun, yisen.zhuang, yongwang,
	xuanziyang2, pkapoor, nadavh, sburla, pathreya, gakhil, mdr,
	dmitry.kozliuk, anatoly.burakov, cristian.dumitrescu,
	honnappa.nagarahalli, mattias.ronnblom, ruifeng.wang, drc,
	konstantin.ananyev, olivier.matz, jay.jayatheerthan, asekhar,
	pbhagavatula, eagostini, syalavarthi, dchickles, sshankarnara,
	Jerin Jacob

From: Jerin Jacob <jerinj@marvell.com>

Machine learning inference library
==================================

Definition of machine learning inference
----------------------------------------
Inference in machine learning is the process of making an output prediction
based on new input data using a pre-trained machine learning model.

The scope of the RFC would include only inferencing with pre-trained machine learning models,
training and building/compiling the ML models is out of scope for this RFC or
DPDK mldev API. Use existing machine learning compiler frameworks for model creation.

Motivation for the new library
------------------------------
Multiple semiconductor vendors are offering accelerator products such as DPU
(often called Smart-NIC), FPGA, GPU, etc., which have ML inferencing capabilities
integrated as part of the product. Use of ML inferencing is increasing in the domain
of packet processing for flow classification, intrusion, malware and anomaly detection.

Lack of inferencing support through DPDK APIs will involve complexities and
increased latency from moving data across frameworks (i.e, dataplane to
non dataplane ML frameworks and vice-versa). Having a standardized DPDK APIs for ML
inferencing would enable the dataplane solutions to harness the benefit of inline
inferencing supported by the hardware.

Contents of RFC
---------------
This RFC attempts to define standard APIs for:

1) Discovery of ML capabilities (e.g., device specific features) in a vendor
independent fashion
2) Definition of functions to handle ML devices, which includes probing,
initialization and termination of the devices.
3) Definition of functions to handle ML models used to perform inference operations.
4) Definition of function to handle quantize and dequantize operations

Roadmap
-------
1) Address the comments for this RFC.
2) Common code for mldev
3) SW mldev driver based on TVM (https://tvm.apache.org/)
4) HW mldev driver for cn10k
3) Add app/test-mldev application similar to other device class tests

Machine learning library framework
----------------------------------

The ML framework is built on the following model:


    +-----------------+               rte_ml_[en|de]queue_burst()
    |                 |                          |
    |     Machine     o------+     +--------+    |
    |     Learning    |      |     | queue  |    |    +------+
    |     Inference   o------+-----o        |<===o===>|Core 0|
    |     Engine      |      |     | pair 0 |         +------+
    |                 o----+ |     +--------+
    |                 |    | |
    +-----------------+    | |     +--------+
             ^             | |     | queue  |         +------+
             |             | +-----o        |<=======>|Core 1|
             |             |       | pair 1 |         +------+
             |             |       +--------+
    +--------+--------+    |
    | +-------------+ |    |       +--------+
    | |   Model 0   | |    |       | queue  |         +------+
    | +-------------+ |    +-------o        |<=======>|Core N|
    | +-------------+ |            | pair N |         +------+
    | |   Model 1   | |            +--------+
    | +-------------+ |
    | +-------------+ |<------- rte_ml_model_load()
    | |   Model ..  | |-------> rte_ml_model_info()
    | +-------------+ |<------- rte_ml_model_start()
    | +-------------+ |<------- rte_ml_model_stop()
    | |   Model N   | |<------- rte_ml_model_params_update()
    | +-------------+ |<------- rte_ml_model_unload()
    +-----------------+

ML Device: A hardware or software-based implementation of ML device API for
running inferences using a pre-trained ML model.

ML Model: An ML model is an algorithm trained over a dataset. A model consists of
procedure/algorithm and data/pattern required to make predictions on live data.
Once the model is created and trained outside of the DPDK scope, the model can be loaded
via rte_ml_model_load() and then start it using rte_ml_model_start() API.
The rte_ml_model_params_update() can be used to update the model parameters such as weight
and bias without unloading the model using rte_ml_model_unload().

ML Inference: ML inference is the process of feeding data to the model via
rte_ml_enqueue_burst() API and use rte_ml_dequeue_burst() API to get the calculated
outputs/predictions from the started model.

In all functions of the ML device API, the ML device is designated by an
integer >= 0 named as device identifier *dev_id*.

The functions exported by the ML device API to setup a device designated by
its device identifier must be invoked in the following order:

     - rte_ml_dev_configure()
     - rte_ml_dev_queue_pair_setup()
     - rte_ml_dev_start()

A model is required to run the inference operations with the user specified inputs.
Application needs to invoke the ML model API in the following order before queueing
inference jobs.

     - rte_ml_model_load()
     - rte_ml_model_start()

The rte_ml_model_info() API is provided to retrieve the information related to the model.
The information would include the shape and type of input and output required for the inference.

Data quantization and dequantization is one of the main aspects in ML domain. This involves
conversion of input data from a higher precision to a lower precision data type and vice-versa
for the output. APIs are provided to enable quantization through rte_ml_io_quantize() and
dequantization through rte_ml_io_dequantize(). These APIs have the capability to handle input
and output buffers holding data for multiple batches.
Two utility APIs rte_ml_io_input_size_get() and rte_ml_io_output_size_get() can used to get the
size of quantized and de-quantized multi-batch input and output buffers.

User can optionally update the model parameters with rte_ml_model_params_update() after
invoking rte_ml_model_stop() API on a given model ID.

The application can invoke, in any order, the functions exported by the ML API to enqueue
inference jobs and dequeue inference response.

If the application wants to change the device configuration (i.e., call
rte_ml_dev_configure() or rte_ml_dev_queue_pair_setup()), then application must stop the
device using rte_ml_dev_stop() API. Likewise, if model parameters need to be updated then
the application must call rte_ml_model_stop() followed by rte_ml_model_params_update() API
for the given model. The application does not need to call rte_ml_dev_stop() API for
any model re-configuration such as rte_ml_model_params_update(), rte_ml_model_unload() etc.

Once the device is in the start state after invoking rte_ml_dev_start() API and the model is in
start state after invoking rte_ml_model_start() API, then the application can call
rte_ml_enqueue() and rte_ml_dequeue() API on the destined device and model ID.

Finally, an application can close an ML device by invoking the rte_ml_dev_close() function.

Typical application utilisation of the ML API will follow the following
programming flow.

- rte_ml_dev_configure()
- rte_ml_dev_queue_pair_setup()
- rte_ml_model_load()
- rte_ml_model_start()
- rte_ml_model_info()
- rte_ml_dev_start()
- rte_ml_enqueue_burst()
- rte_ml_dequeue_burst()
- rte_ml_model_stop()
- rte_ml_model_unload()
- rte_ml_dev_stop()
- rte_ml_dev_close()

Regarding multi-threading, by default, all the functions of the ML Device API exported by a PMD
are lock-free functions which assume to not be invoked in parallel on different logical cores
on the same target object. For instance, the dequeue function of a poll mode driver cannot be
invoked in parallel on two logical cores to operate on same queue pair. Of course, this function
can be invoked in parallel by different logical core on different queue pair.
It is the responsibility of the user application to enforce this rule.

Example application usage for ML inferencing
--------------------------------------------
This example application is to demonstrate the programming model of ML device
library. This example omits the error checks to simplify the application. This
example also assumes that the input data received is quantized and output expected
is also quantized. In order to handle non-quantized inputs and outputs, users can
invoke rte_ml_io_quantize() or rte_ml_io_dequantize() for data type conversions.

#define ML_MODEL_NAME "model"
#define IO_MZ "io_mz"

struct app_ctx {
	char model_file[PATH_MAX];
	char inp_file[PATH_MAX];
	char out_file[PATH_MAX];

	struct rte_ml_model_params params;
	struct rte_ml_model_info info;
	uint16_t id;

	uint64_t input_size;
	uint64_t output_size;
	uint8_t *input_buffer;
	uint8_t *output_buffer;
} __rte_cache_aligned;

struct app_ctx ctx;

static int
parse_args(int argc, char **argv)
{
	int opt, option_index;
	static struct option lgopts[] = {{"model", required_argument, NULL, 'm'},
					 {"input", required_argument, NULL, 'i'},
					 {"output", required_argument, NULL, 'o'},
					 {NULL, 0, NULL, 0}};

	while ((opt = getopt_long(argc, argv, "m:i:o:", lgopts, &option_index)) != EOF)
		switch (opt) {
		case 'm':
			strncpy(ctx.model_file, optarg, PATH_MAX - 1);
			break;
		case 'i':
			strncpy(ctx.inp_file, optarg, PATH_MAX - 1);
			break;
		case 'o':
			strncpy(ctx.out_file, optarg, PATH_MAX - 1);
			break;
		default:
			return -1;
		}

	return 0;
}

int
main(int argc, char **argv)
{
	struct rte_ml_dev_qp_conf qp_conf;
	struct rte_ml_dev_config config;
	struct rte_ml_dev_info dev_info;
	const struct rte_memzone *mz;
	struct rte_mempool *op_pool;
	struct rte_ml_op *op_enq;
	struct rte_ml_op *op_deq;

	FILE *fp;
	int rc;

	/* Initialize EAL */
	rc = rte_eal_init(argc, argv);
	if (rc < 0)
		rte_exit(EXIT_FAILURE, "Invalid EAL arguments\n");
	argc -= rc;
	argv += rc;

	/* Parse application arguments (after the EAL args) */
	if (parse_args(argc, argv) < 0)
		rte_exit(EXIT_FAILURE, "Invalid application arguments\n");

	/* Step 1: Check for ML devices */
	if (rte_ml_dev_count() <= 0)
		rte_exit(EXIT_FAILURE, "Failed to find ML devices\n");

	/* Step 2: Get device info */
	if (rte_ml_dev_info_get(0, &dev_info) != 0)
		rte_exit(EXIT_FAILURE, "Failed to get device info\n");

	/* Step 3: Configure ML device, use device 0 */
	config.socket_id = rte_ml_dev_socket_id(0);
	config.max_nb_models = dev_info.max_models;
	config.nb_queue_pairs = dev_info.max_queue_pairs;
	if (rte_ml_dev_configure(0, &config) != 0)
		rte_exit(EXIT_FAILURE, "Device configuration failed\n");

	/* Step 4: Setup queue pairs, used qp_id = 0 */
	qp_conf.nb_desc = 1;
	if (rte_ml_dev_queue_pair_setup(0, 0, &qp_conf, config.socket_id) != 0)
		rte_exit(EXIT_FAILURE, "Queue-pair setup failed\n");

	/* Step 5: Start device */
	if (rte_ml_dev_start(0) != 0)
		rte_exit(EXIT_FAILURE, "Device start failed\n");

	/* Step 6: Read model data and update load params structure */
	fp = fopen(ctx.model_file, "r+");
	if (fp == NULL)
		rte_exit(EXIT_FAILURE, "Failed to open model file\n");

	fseek(fp, 0, SEEK_END);
	ctx.params.size = ftell(fp);
	fseek(fp, 0, SEEK_SET);

	ctx.params.addr = malloc(ctx.params.size);
	if (fread(ctx.params.addr, 1, ctx.params.size, fp) != ctx.params.size){
		fclose(fp);
		rte_exit(EXIT_FAILURE, "Failed to read model\n");
	}
	fclose(fp);
	strcpy(ctx.params.name, ML_MODEL_NAME);

	/* Step 7: Load the model */
	if (rte_ml_model_load(0, &ctx.params, &ctx.id) != 0)
		rte_exit(EXIT_FAILURE, "Failed to load model\n");
	free(ctx.params.addr);

	/* Step 8: Start the model */
	if (rte_ml_model_start(0, ctx.id) != 0)
		rte_exit(EXIT_FAILURE, "Failed to start model\n");

	/* Step 9: Allocate buffers for quantized input and output */

	/* Get model information */
	if (rte_ml_model_info_get(0, ctx.id, &ctx.info) != 0)
		rte_exit(EXIT_FAILURE, "Failed to get model info\n");

	/* Get the buffer size for input and output */
	rte_ml_io_input_size_get(0, ctx.id, ctx.info.batch_size, &ctx.input_size, NULL);
	rte_ml_io_output_size_get(0, ctx.id, ctx.info.batch_size, &ctx.output_size, NULL);

	mz = rte_memzone_reserve(IO_MZ, ctx.input_size + ctx.output_size, config.socket_id, 0);
	if (mz == NULL)
		rte_exit(EXIT_FAILURE, "Failed to create IO memzone\n");

	ctx.input_buffer = mz->addr;
	ctx.output_buffer = ctx.input_buffer + ctx.input_size;

	/* Step 10: Fill the input data */
	fp = fopen(ctx.inp_file, "r+");
	if (fp == NULL)
		rte_exit(EXIT_FAILURE, "Failed to open input file\n");

	if (fread(ctx.input_buffer, 1, ctx.input_size, fp) != ctx.input_size) {
		fclose(fp);
		rte_exit(EXIT_FAILURE, "Failed to read input file\n");
	}
	fclose(fp);

	/* Step 11: Create ML op mempool */
	op_pool = rte_ml_op_pool_create("ml_op_pool", 1, 0, 0, config.socket_id);
	if (op_pool == NULL)
		rte_exit(EXIT_FAILURE, "Failed to create op pool\n");

	/* Step 12: Form an ML op */
	rte_mempool_get_bulk(op_pool, (void *)op_enq, 1);
	op_enq->model_id = ctx.id;
	op_enq->nb_batches = ctx.info.batch_size;
	op_enq->mempool = op_pool;
	op_enq->input.addr = ctx.input_buffer;
	op_enq->input.length = ctx.input_size;
	op_enq->input.next = NULL;
	op_enq->output.addr = ctx.output_buffer;
	op_enq->output.length = ctx.output_size;
	op_enq->output.next = NULL;

	/* Step 13: Enqueue jobs */
	rte_ml_enqueue_burst(0, 0, &op_enq, 1);

	/* Step 14: Dequeue jobs and release op pool */
	while (rte_ml_dequeue_burst(0, 0, &op_deq, 1) != 1)
		;

	/* Step 15: Write output */
	fp = fopen(ctx.out_file, "w+");
	if (fp == NULL)
		rte_exit(EXIT_FAILURE, "Failed to open output file\n");
	fwrite(ctx.output_buffer, 1, ctx.output_size, fp);
	fclose(fp);

	/* Step 16: Clean up */
	/* Stop ML model */
	rte_ml_model_stop(0, ctx.id);
	/* Unload ML model */
	rte_ml_model_unload(0, ctx.id);
	/* Free input/output memory */
	rte_memzone_free(rte_memzone_lookup(IO_MZ));
	/* Free the ml op back to pool */
	rte_mempool_put_bulk(op_pool, (void *)op_deq, 1);
	/* Free ml op pool */
	rte_mempool_free(op_pool);
	/* Stop the device */
	rte_ml_dev_stop(0);
	rte_ml_dev_close(0);
	rte_eal_cleanup();

	return 0;
}

Jerin Jacob (1):
  mldev: introduce machine learning device library

 config/rte_config.h             |    3 +
 doc/api/doxy-api-index.md       |    1 +
 doc/api/doxy-api.conf.in        |    1 +
 doc/guides/prog_guide/index.rst |    1 +
 doc/guides/prog_guide/mldev.rst |  164 +++++
 lib/eal/common/eal_common_log.c |    1 +
 lib/eal/include/rte_log.h       |    1 +
 lib/meson.build                 |    1 +
 lib/mldev/meson.build           |   12 +
 lib/mldev/rte_mldev.c           |    5 +
 lib/mldev/rte_mldev.h           | 1081 +++++++++++++++++++++++++++++++
 lib/mldev/version.map           |    5 +
 12 files changed, 1276 insertions(+)
 create mode 100644 doc/guides/prog_guide/mldev.rst
 create mode 100644 lib/mldev/meson.build
 create mode 100644 lib/mldev/rte_mldev.c
 create mode 100644 lib/mldev/rte_mldev.h
 create mode 100644 lib/mldev/version.map

-- 
2.37.1


^ permalink raw reply	[flat|nested] 80+ messages in thread

end of thread, other threads:[~2023-03-09 17:33 UTC | newest]

Thread overview: 80+ messages (download: mbox.gz / follow: Atom feed)
-- links below jump to the message on this page --
2022-08-03 13:28 [dpdk-dev] [RFC PATCH 0/1] mldev: introduce machine learning device library jerinj
2022-08-03 13:28 ` [dpdk-dev] [RFC PATCH 1/1] " jerinj
2022-11-14 12:02   ` [dpdk-dev] [PATCH v1 00/12] " jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 01/12] " jerinj
2023-02-01 13:34       ` Shivah Shankar Shankar Narayan Rao
2023-02-03  0:25         ` Stephen Hemminger
2023-02-03  8:42           ` Thomas Monjalon
2023-02-03 17:33             ` Stephen Hemminger
2023-02-03 20:18               ` Thomas Monjalon
2023-02-03 20:26                 ` Stephen Hemminger
2023-02-03 20:49                   ` Thomas Monjalon
2023-02-05 23:41                     ` Stephen Hemminger
2023-02-03 10:01           ` Jerin Jacob
2023-02-03  0:25         ` Stephen Hemminger
2023-02-03 10:04           ` Jerin Jacob
2023-02-03  0:28         ` Stephen Hemminger
2023-02-03 10:03           ` Jerin Jacob
2023-02-02  5:26       ` Shivah Shankar Shankar Narayan Rao
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 02/12] mldev: add PMD functions for ML device jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 03/12] mldev: support device handling functions jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 04/12] mldev: support device queue-pair setup jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 05/12] mldev: support handling ML models jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 06/12] mldev: support input and output data handling jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 07/12] mldev: support op pool and its operations jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 08/12] mldev: support inference enqueue and dequeue jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 09/12] mldev: support device statistics jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 10/12] mldev: support device extended statistics jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 11/12] mldev: support to retrieve error information jerinj
2022-11-14 12:02     ` [dpdk-dev] [PATCH v1 12/12] mldev: support to get debug info and test device jerinj
2023-01-25 14:20     ` [dpdk-dev] [PATCH v1 00/12] mldev: introduce machine learning device library Thomas Monjalon
2023-01-25 19:01       ` Jerin Jacob
2023-01-26 11:11         ` Thomas Monjalon
2023-01-27  2:33           ` [EXT] " Shivah Shankar Shankar Narayan Rao
2023-01-27  4:29             ` Jerin Jacob
2023-01-27 11:34               ` Thomas Monjalon
2023-01-28 11:27                 ` Jerin Jacob
2023-02-01 16:57                   ` Thomas Monjalon
2023-02-01 17:33                     ` Jerin Jacob
2023-02-06 20:24     ` [dpdk-dev] [PATCH v2 " jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 01/12] " jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 02/12] mldev: support PMD functions for ML device jerinj
2023-02-06 21:04         ` Stephen Hemminger
2023-02-06 22:17           ` Thomas Monjalon
2023-02-07  5:16           ` Jerin Jacob
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 03/12] mldev: support ML device handling functions jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 04/12] mldev: support ML device queue-pair setup jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 05/12] mldev: support handling ML models jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 06/12] mldev: support input and output data handling jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 07/12] mldev: support ML op pool and ops jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 08/12] mldev: support inference enqueue and dequeue jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 09/12] mldev: support device statistics jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 10/12] mldev: support device extended statistics jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 11/12] mldev: support to retrieve error information jerinj
2023-02-06 20:24       ` [dpdk-dev] [PATCH v2 12/12] mldev: support to get debug info and test device jerinj
2023-02-07 15:13       ` [dpdk-dev] [PATCH v3 00/12] mldev: introduce machine learning device library jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 01/12] " jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 02/12] mldev: support PMD functions for ML device jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 03/12] mldev: support ML device handling functions jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 04/12] mldev: support ML device queue-pair setup jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 05/12] mldev: support handling ML models jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 06/12] mldev: support input and output data handling jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 07/12] mldev: support ML op pool and ops jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 08/12] mldev: support inference enqueue and dequeue jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 09/12] mldev: support device statistics jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 10/12] mldev: support device extended statistics jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 11/12] mldev: support to retrieve error information jerinj
2023-02-07 15:13         ` [dpdk-dev] [PATCH v3 12/12] mldev: support to get debug info and test device jerinj
2023-02-15 12:55         ` [dpdk-dev] [PATCH v3 00/12] mldev: introduce machine learning device library Ferruh Yigit
2023-02-15 17:03           ` Jerin Jacob
2023-03-09 17:33         ` Thomas Monjalon
2022-08-03 15:19 ` [dpdk-dev] [RFC PATCH 0/1] " Stephen Hemminger
2022-08-16 13:13   ` Jerin Jacob
2022-08-16 15:45     ` Morten Brørup
2022-08-16 16:34       ` Honnappa Nagarahalli
2022-08-17 14:53         ` Jerin Jacob
2023-01-25 13:47           ` Thomas Monjalon
2023-01-25 13:54             ` Jerin Jacob
2022-08-17  5:37       ` Jerin Jacob
2022-08-17  6:58         ` Morten Brørup
2023-01-25 13:45           ` Thomas Monjalon

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