From: Timothy McDaniel <timothy.mcdaniel@intel.com>
To: jerinj@marvell.com
Cc: bruce.richardson@intel.com, dev@dpdk.org,
Kent Wires <kent.wires@intel.com>
Subject: [PATCH v7] event/dlb2: add support for single 512B write of 4 QEs
Date: Fri, 10 Jun 2022 10:41:25 -0500 [thread overview]
Message-ID: <20220610154125.2712367-1-timothy.mcdaniel@intel.com> (raw)
In-Reply-To: <20220409151849.1007602-1-timothy.mcdaniel@intel.com>
On Xeon, 512b accesses are available, so movdir64 instruction is able to
perform 512b read and write to DLB producer port. In order for movdir64
to be able to pull its data from store buffers (store-buffer-forwarding)
(before actual write), data should be in single 512b write format.
This commit add change when code is built for Xeon with 512b AVX support
to make single 512b write of all 4 QEs instead of 4x64b writes.
Signed-off-by: Timothy McDaniel <timothy.mcdaniel@intel.com>
Acked-by: Kent Wires <kent.wires@intel.com>
===
Changes since V6:
1) Check for AVX512VL only, removing checks for other
AVX512 flags in meson.build
2) rename dlb2_sve.c to dlb2_sse.c
Changes since V5:
No code changes - just added --in-reply-to and copied Bruce
Changes since V4:
1) Add build-time control for avx512 support to meson.buildi, based
on implementation found in lib/acl/meson.build
2) Add rte_vect_get_max_simd_bitwidth runtime check before using
avx512 instructions
Changes since V3:
1) Renamed dlb2_noavx512.c to dlb2_sve.c, and fixed up meson.build
for new file name.
Changes since V1:
1) Split out dlb2_event_build_hcws into two implementations, one
that uses AVX512 instructions, and one that does not. Each implementation
is in its own source file in order to avoid build errors if the compiler
does not support the newer AVX512 instructions.
2) Update meson.build to and pull in appropriate source file based on
whether the compiler supports AVX512VL
3) Check if target supports AVX512VL, and use appropriate implementation
based on this runtime check.
---
drivers/event/dlb2/dlb2.c | 208 +-----------------------
drivers/event/dlb2/dlb2_avx512.c | 267 +++++++++++++++++++++++++++++++
drivers/event/dlb2/dlb2_priv.h | 10 ++
drivers/event/dlb2/dlb2_sse.c | 219 +++++++++++++++++++++++++
drivers/event/dlb2/dlb2_sve.c | 219 +++++++++++++++++++++++++
drivers/event/dlb2/meson.build | 47 ++++++
6 files changed, 769 insertions(+), 201 deletions(-)
create mode 100644 drivers/event/dlb2/dlb2_avx512.c
create mode 100644 drivers/event/dlb2/dlb2_sse.c
create mode 100644 drivers/event/dlb2/dlb2_sve.c
diff --git a/drivers/event/dlb2/dlb2.c b/drivers/event/dlb2/dlb2.c
index 3641ed2942..0b70dc0f51 100644
--- a/drivers/event/dlb2/dlb2.c
+++ b/drivers/event/dlb2/dlb2.c
@@ -1861,6 +1861,13 @@ dlb2_eventdev_port_setup(struct rte_eventdev *dev,
dev->data->ports[ev_port_id] = &dlb2->ev_ports[ev_port_id];
+#ifdef CC_AVX512_SUPPORT
+ if (rte_cpu_get_flag_enabled(RTE_CPUFLAG_AVX512VL) &&
+ rte_vect_get_max_simd_bitwidth() >= RTE_VECT_SIMD_512)
+ ev_port->qm_port.use_avx512 = true;
+ else
+ ev_port->qm_port.use_avx512 = false;
+#endif
return 0;
}
@@ -2457,21 +2464,6 @@ dlb2_eventdev_start(struct rte_eventdev *dev)
return 0;
}
-static uint8_t cmd_byte_map[DLB2_NUM_PORT_TYPES][DLB2_NUM_HW_SCHED_TYPES] = {
- {
- /* Load-balanced cmd bytes */
- [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
- [RTE_EVENT_OP_FORWARD] = DLB2_FWD_CMD_BYTE,
- [RTE_EVENT_OP_RELEASE] = DLB2_COMP_CMD_BYTE,
- },
- {
- /* Directed cmd bytes */
- [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
- [RTE_EVENT_OP_FORWARD] = DLB2_NEW_CMD_BYTE,
- [RTE_EVENT_OP_RELEASE] = DLB2_NOOP_CMD_BYTE,
- },
-};
-
static inline uint32_t
dlb2_port_credits_get(struct dlb2_port *qm_port,
enum dlb2_hw_queue_types type)
@@ -2666,192 +2658,6 @@ dlb2_construct_token_pop_qe(struct dlb2_port *qm_port, int idx)
qm_port->owed_tokens = 0;
}
-static inline void
-dlb2_event_build_hcws(struct dlb2_port *qm_port,
- const struct rte_event ev[],
- int num,
- uint8_t *sched_type,
- uint8_t *queue_id)
-{
- struct dlb2_enqueue_qe *qe;
- uint16_t sched_word[4];
- __m128i sse_qe[2];
- int i;
-
- qe = qm_port->qe4;
-
- sse_qe[0] = _mm_setzero_si128();
- sse_qe[1] = _mm_setzero_si128();
-
- switch (num) {
- case 4:
- /* Construct the metadata portion of two HCWs in one 128b SSE
- * register. HCW metadata is constructed in the SSE registers
- * like so:
- * sse_qe[0][63:0]: qe[0]'s metadata
- * sse_qe[0][127:64]: qe[1]'s metadata
- * sse_qe[1][63:0]: qe[2]'s metadata
- * sse_qe[1][127:64]: qe[3]'s metadata
- */
-
- /* Convert the event operation into a command byte and store it
- * in the metadata:
- * sse_qe[0][63:56] = cmd_byte_map[is_directed][ev[0].op]
- * sse_qe[0][127:120] = cmd_byte_map[is_directed][ev[1].op]
- * sse_qe[1][63:56] = cmd_byte_map[is_directed][ev[2].op]
- * sse_qe[1][127:120] = cmd_byte_map[is_directed][ev[3].op]
- */
-#define DLB2_QE_CMD_BYTE 7
- sse_qe[0] = _mm_insert_epi8(sse_qe[0],
- cmd_byte_map[qm_port->is_directed][ev[0].op],
- DLB2_QE_CMD_BYTE);
- sse_qe[0] = _mm_insert_epi8(sse_qe[0],
- cmd_byte_map[qm_port->is_directed][ev[1].op],
- DLB2_QE_CMD_BYTE + 8);
- sse_qe[1] = _mm_insert_epi8(sse_qe[1],
- cmd_byte_map[qm_port->is_directed][ev[2].op],
- DLB2_QE_CMD_BYTE);
- sse_qe[1] = _mm_insert_epi8(sse_qe[1],
- cmd_byte_map[qm_port->is_directed][ev[3].op],
- DLB2_QE_CMD_BYTE + 8);
-
- /* Store priority, scheduling type, and queue ID in the sched
- * word array because these values are re-used when the
- * destination is a directed queue.
- */
- sched_word[0] = EV_TO_DLB2_PRIO(ev[0].priority) << 10 |
- sched_type[0] << 8 |
- queue_id[0];
- sched_word[1] = EV_TO_DLB2_PRIO(ev[1].priority) << 10 |
- sched_type[1] << 8 |
- queue_id[1];
- sched_word[2] = EV_TO_DLB2_PRIO(ev[2].priority) << 10 |
- sched_type[2] << 8 |
- queue_id[2];
- sched_word[3] = EV_TO_DLB2_PRIO(ev[3].priority) << 10 |
- sched_type[3] << 8 |
- queue_id[3];
-
- /* Store the event priority, scheduling type, and queue ID in
- * the metadata:
- * sse_qe[0][31:16] = sched_word[0]
- * sse_qe[0][95:80] = sched_word[1]
- * sse_qe[1][31:16] = sched_word[2]
- * sse_qe[1][95:80] = sched_word[3]
- */
-#define DLB2_QE_QID_SCHED_WORD 1
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- sched_word[0],
- DLB2_QE_QID_SCHED_WORD);
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- sched_word[1],
- DLB2_QE_QID_SCHED_WORD + 4);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- sched_word[2],
- DLB2_QE_QID_SCHED_WORD);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- sched_word[3],
- DLB2_QE_QID_SCHED_WORD + 4);
-
- /* If the destination is a load-balanced queue, store the lock
- * ID. If it is a directed queue, DLB places this field in
- * bytes 10-11 of the received QE, so we format it accordingly:
- * sse_qe[0][47:32] = dir queue ? sched_word[0] : flow_id[0]
- * sse_qe[0][111:96] = dir queue ? sched_word[1] : flow_id[1]
- * sse_qe[1][47:32] = dir queue ? sched_word[2] : flow_id[2]
- * sse_qe[1][111:96] = dir queue ? sched_word[3] : flow_id[3]
- */
-#define DLB2_QE_LOCK_ID_WORD 2
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- (sched_type[0] == DLB2_SCHED_DIRECTED) ?
- sched_word[0] : ev[0].flow_id,
- DLB2_QE_LOCK_ID_WORD);
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- (sched_type[1] == DLB2_SCHED_DIRECTED) ?
- sched_word[1] : ev[1].flow_id,
- DLB2_QE_LOCK_ID_WORD + 4);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- (sched_type[2] == DLB2_SCHED_DIRECTED) ?
- sched_word[2] : ev[2].flow_id,
- DLB2_QE_LOCK_ID_WORD);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- (sched_type[3] == DLB2_SCHED_DIRECTED) ?
- sched_word[3] : ev[3].flow_id,
- DLB2_QE_LOCK_ID_WORD + 4);
-
- /* Store the event type and sub event type in the metadata:
- * sse_qe[0][15:0] = flow_id[0]
- * sse_qe[0][79:64] = flow_id[1]
- * sse_qe[1][15:0] = flow_id[2]
- * sse_qe[1][79:64] = flow_id[3]
- */
-#define DLB2_QE_EV_TYPE_WORD 0
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- ev[0].sub_event_type << 8 |
- ev[0].event_type,
- DLB2_QE_EV_TYPE_WORD);
- sse_qe[0] = _mm_insert_epi16(sse_qe[0],
- ev[1].sub_event_type << 8 |
- ev[1].event_type,
- DLB2_QE_EV_TYPE_WORD + 4);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- ev[2].sub_event_type << 8 |
- ev[2].event_type,
- DLB2_QE_EV_TYPE_WORD);
- sse_qe[1] = _mm_insert_epi16(sse_qe[1],
- ev[3].sub_event_type << 8 |
- ev[3].event_type,
- DLB2_QE_EV_TYPE_WORD + 4);
-
- /* Store the metadata to memory (use the double-precision
- * _mm_storeh_pd because there is no integer function for
- * storing the upper 64b):
- * qe[0] metadata = sse_qe[0][63:0]
- * qe[1] metadata = sse_qe[0][127:64]
- * qe[2] metadata = sse_qe[1][63:0]
- * qe[3] metadata = sse_qe[1][127:64]
- */
- _mm_storel_epi64((__m128i *)&qe[0].u.opaque_data, sse_qe[0]);
- _mm_storeh_pd((double *)&qe[1].u.opaque_data,
- (__m128d)sse_qe[0]);
- _mm_storel_epi64((__m128i *)&qe[2].u.opaque_data, sse_qe[1]);
- _mm_storeh_pd((double *)&qe[3].u.opaque_data,
- (__m128d)sse_qe[1]);
-
- qe[0].data = ev[0].u64;
- qe[1].data = ev[1].u64;
- qe[2].data = ev[2].u64;
- qe[3].data = ev[3].u64;
-
- break;
- case 3:
- case 2:
- case 1:
- for (i = 0; i < num; i++) {
- qe[i].cmd_byte =
- cmd_byte_map[qm_port->is_directed][ev[i].op];
- qe[i].sched_type = sched_type[i];
- qe[i].data = ev[i].u64;
- qe[i].qid = queue_id[i];
- qe[i].priority = EV_TO_DLB2_PRIO(ev[i].priority);
- qe[i].lock_id = ev[i].flow_id;
- if (sched_type[i] == DLB2_SCHED_DIRECTED) {
- struct dlb2_msg_info *info =
- (struct dlb2_msg_info *)&qe[i].lock_id;
-
- info->qid = queue_id[i];
- info->sched_type = DLB2_SCHED_DIRECTED;
- info->priority = qe[i].priority;
- }
- qe[i].u.event_type.major = ev[i].event_type;
- qe[i].u.event_type.sub = ev[i].sub_event_type;
- }
- break;
- case 0:
- break;
- }
-}
-
static inline int
dlb2_event_enqueue_prep(struct dlb2_eventdev_port *ev_port,
struct dlb2_port *qm_port,
diff --git a/drivers/event/dlb2/dlb2_avx512.c b/drivers/event/dlb2/dlb2_avx512.c
new file mode 100644
index 0000000000..ce2d006006
--- /dev/null
+++ b/drivers/event/dlb2/dlb2_avx512.c
@@ -0,0 +1,267 @@
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2016-2020 Intel Corporation
+ */
+
+#include <stdint.h>
+#include <stdbool.h>
+
+#include "dlb2_priv.h"
+#include "dlb2_iface.h"
+#include "dlb2_inline_fns.h"
+
+/*
+ * This source file is used when the compiler on the build machine
+ * supports AVX512VL. We will perform a runtime check before actually
+ * executing those instructions.
+ */
+
+static uint8_t cmd_byte_map[DLB2_NUM_PORT_TYPES][DLB2_NUM_HW_SCHED_TYPES] = {
+ {
+ /* Load-balanced cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_FWD_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_COMP_CMD_BYTE,
+ },
+ {
+ /* Directed cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_NOOP_CMD_BYTE,
+ },
+};
+
+void
+dlb2_event_build_hcws(struct dlb2_port *qm_port,
+ const struct rte_event ev[],
+ int num,
+ uint8_t *sched_type,
+ uint8_t *queue_id)
+{
+ struct dlb2_enqueue_qe *qe;
+ uint16_t sched_word[4];
+ __m128i sse_qe[2];
+ int i;
+
+ qe = qm_port->qe4;
+
+ sse_qe[0] = _mm_setzero_si128();
+ sse_qe[1] = _mm_setzero_si128();
+
+ switch (num) {
+ case 4:
+ /* Construct the metadata portion of two HCWs in one 128b SSE
+ * register. HCW metadata is constructed in the SSE registers
+ * like so:
+ * sse_qe[0][63:0]: qe[0]'s metadata
+ * sse_qe[0][127:64]: qe[1]'s metadata
+ * sse_qe[1][63:0]: qe[2]'s metadata
+ * sse_qe[1][127:64]: qe[3]'s metadata
+ */
+
+ /* Convert the event operation into a command byte and store it
+ * in the metadata:
+ * sse_qe[0][63:56] = cmd_byte_map[is_directed][ev[0].op]
+ * sse_qe[0][127:120] = cmd_byte_map[is_directed][ev[1].op]
+ * sse_qe[1][63:56] = cmd_byte_map[is_directed][ev[2].op]
+ * sse_qe[1][127:120] = cmd_byte_map[is_directed][ev[3].op]
+ */
+#define DLB2_QE_CMD_BYTE 7
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[0].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[1].op],
+ DLB2_QE_CMD_BYTE + 8);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[2].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[3].op],
+ DLB2_QE_CMD_BYTE + 8);
+
+ /* Store priority, scheduling type, and queue ID in the sched
+ * word array because these values are re-used when the
+ * destination is a directed queue.
+ */
+ sched_word[0] = EV_TO_DLB2_PRIO(ev[0].priority) << 10 |
+ sched_type[0] << 8 |
+ queue_id[0];
+ sched_word[1] = EV_TO_DLB2_PRIO(ev[1].priority) << 10 |
+ sched_type[1] << 8 |
+ queue_id[1];
+ sched_word[2] = EV_TO_DLB2_PRIO(ev[2].priority) << 10 |
+ sched_type[2] << 8 |
+ queue_id[2];
+ sched_word[3] = EV_TO_DLB2_PRIO(ev[3].priority) << 10 |
+ sched_type[3] << 8 |
+ queue_id[3];
+
+ /* Store the event priority, scheduling type, and queue ID in
+ * the metadata:
+ * sse_qe[0][31:16] = sched_word[0]
+ * sse_qe[0][95:80] = sched_word[1]
+ * sse_qe[1][31:16] = sched_word[2]
+ * sse_qe[1][95:80] = sched_word[3]
+ */
+#define DLB2_QE_QID_SCHED_WORD 1
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[0],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[1],
+ DLB2_QE_QID_SCHED_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[2],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[3],
+ DLB2_QE_QID_SCHED_WORD + 4);
+
+ /* If the destination is a load-balanced queue, store the lock
+ * ID. If it is a directed queue, DLB places this field in
+ * bytes 10-11 of the received QE, so we format it accordingly:
+ * sse_qe[0][47:32] = dir queue ? sched_word[0] : flow_id[0]
+ * sse_qe[0][111:96] = dir queue ? sched_word[1] : flow_id[1]
+ * sse_qe[1][47:32] = dir queue ? sched_word[2] : flow_id[2]
+ * sse_qe[1][111:96] = dir queue ? sched_word[3] : flow_id[3]
+ */
+#define DLB2_QE_LOCK_ID_WORD 2
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[0] == DLB2_SCHED_DIRECTED) ?
+ sched_word[0] : ev[0].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[1] == DLB2_SCHED_DIRECTED) ?
+ sched_word[1] : ev[1].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[2] == DLB2_SCHED_DIRECTED) ?
+ sched_word[2] : ev[2].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[3] == DLB2_SCHED_DIRECTED) ?
+ sched_word[3] : ev[3].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+
+ /* Store the event type and sub event type in the metadata:
+ * sse_qe[0][15:0] = flow_id[0]
+ * sse_qe[0][79:64] = flow_id[1]
+ * sse_qe[1][15:0] = flow_id[2]
+ * sse_qe[1][79:64] = flow_id[3]
+ */
+#define DLB2_QE_EV_TYPE_WORD 0
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[0].sub_event_type << 8 |
+ ev[0].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[1].sub_event_type << 8 |
+ ev[1].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[2].sub_event_type << 8 |
+ ev[2].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[3].sub_event_type << 8 |
+ ev[3].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+
+ if (qm_port->use_avx512) {
+
+ /*
+ * 1) Build avx512 QE store and build each
+ * QE individually as XMM register
+ * 2) Merge the 4 XMM registers/QEs into single AVX512
+ * register
+ * 3) Store single avx512 register to &qe[0] (4x QEs
+ * stored in 1x store)
+ */
+
+ __m128i v_qe0 = _mm_setzero_si128();
+ uint64_t meta = _mm_extract_epi64(sse_qe[0], 0);
+ v_qe0 = _mm_insert_epi64(v_qe0, ev[0].u64, 0);
+ v_qe0 = _mm_insert_epi64(v_qe0, meta, 1);
+
+ __m128i v_qe1 = _mm_setzero_si128();
+ meta = _mm_extract_epi64(sse_qe[0], 1);
+ v_qe1 = _mm_insert_epi64(v_qe1, ev[1].u64, 0);
+ v_qe1 = _mm_insert_epi64(v_qe1, meta, 1);
+
+ __m128i v_qe2 = _mm_setzero_si128();
+ meta = _mm_extract_epi64(sse_qe[1], 0);
+ v_qe2 = _mm_insert_epi64(v_qe2, ev[2].u64, 0);
+ v_qe2 = _mm_insert_epi64(v_qe2, meta, 1);
+
+ __m128i v_qe3 = _mm_setzero_si128();
+ meta = _mm_extract_epi64(sse_qe[1], 1);
+ v_qe3 = _mm_insert_epi64(v_qe3, ev[3].u64, 0);
+ v_qe3 = _mm_insert_epi64(v_qe3, meta, 1);
+
+ /* we have 4x XMM registers, one per QE. */
+ __m512i v_all_qes = _mm512_setzero_si512();
+ v_all_qes = _mm512_inserti32x4(v_all_qes, v_qe0, 0);
+ v_all_qes = _mm512_inserti32x4(v_all_qes, v_qe1, 1);
+ v_all_qes = _mm512_inserti32x4(v_all_qes, v_qe2, 2);
+ v_all_qes = _mm512_inserti32x4(v_all_qes, v_qe3, 3);
+
+ /*
+ * store the 4x QEs in a single register to the scratch
+ * space of the PMD
+ */
+ _mm512_store_si512(&qe[0], v_all_qes);
+
+ } else {
+
+ /*
+ * Store the metadata to memory (use the double-precision
+ * _mm_storeh_pd because there is no integer function for
+ * storing the upper 64b):
+ * qe[0] metadata = sse_qe[0][63:0]
+ * qe[1] metadata = sse_qe[0][127:64]
+ * qe[2] metadata = sse_qe[1][63:0]
+ * qe[3] metadata = sse_qe[1][127:64]
+ */
+ _mm_storel_epi64((__m128i *)&qe[0].u.opaque_data,
+ sse_qe[0]);
+ _mm_storeh_pd((double *)&qe[1].u.opaque_data,
+ (__m128d)sse_qe[0]);
+ _mm_storel_epi64((__m128i *)&qe[2].u.opaque_data,
+ sse_qe[1]);
+ _mm_storeh_pd((double *)&qe[3].u.opaque_data,
+ (__m128d)sse_qe[1]);
+
+ qe[0].data = ev[0].u64;
+ qe[1].data = ev[1].u64;
+ qe[2].data = ev[2].u64;
+ qe[3].data = ev[3].u64;
+ }
+
+ break;
+ case 3:
+ case 2:
+ case 1:
+ for (i = 0; i < num; i++) {
+ qe[i].cmd_byte =
+ cmd_byte_map[qm_port->is_directed][ev[i].op];
+ qe[i].sched_type = sched_type[i];
+ qe[i].data = ev[i].u64;
+ qe[i].qid = queue_id[i];
+ qe[i].priority = EV_TO_DLB2_PRIO(ev[i].priority);
+ qe[i].lock_id = ev[i].flow_id;
+ if (sched_type[i] == DLB2_SCHED_DIRECTED) {
+ struct dlb2_msg_info *info =
+ (struct dlb2_msg_info *)&qe[i].lock_id;
+
+ info->qid = queue_id[i];
+ info->sched_type = DLB2_SCHED_DIRECTED;
+ info->priority = qe[i].priority;
+ }
+ qe[i].u.event_type.major = ev[i].event_type;
+ qe[i].u.event_type.sub = ev[i].sub_event_type;
+ }
+ break;
+ case 0:
+ break;
+ }
+}
diff --git a/drivers/event/dlb2/dlb2_priv.h b/drivers/event/dlb2/dlb2_priv.h
index 4a06d649ab..e8d2d0c656 100644
--- a/drivers/event/dlb2/dlb2_priv.h
+++ b/drivers/event/dlb2/dlb2_priv.h
@@ -377,6 +377,9 @@ struct dlb2_port {
struct dlb2_eventdev_port *ev_port; /* back ptr */
bool use_scalar; /* force usage of scalar code */
uint16_t hw_credit_quanta;
+#ifdef CC_AVX512_SUPPORT
+ bool use_avx512;
+#endif
};
/* Per-process per-port mmio and memory pointers */
@@ -686,6 +689,13 @@ int dlb2_parse_params(const char *params,
struct dlb2_devargs *dlb2_args,
uint8_t version);
+void dlb2_event_build_hcws(struct dlb2_port *qm_port,
+ const struct rte_event ev[],
+ int num,
+ uint8_t *sched_type,
+ uint8_t *queue_id);
+
+
/* Extern globals */
extern struct process_local_port_data dlb2_port[][DLB2_NUM_PORT_TYPES];
diff --git a/drivers/event/dlb2/dlb2_sse.c b/drivers/event/dlb2/dlb2_sse.c
new file mode 100644
index 0000000000..82f6588e2a
--- /dev/null
+++ b/drivers/event/dlb2/dlb2_sse.c
@@ -0,0 +1,219 @@
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2016-2020 Intel Corporation
+ */
+
+#include <stdint.h>
+#include <stdbool.h>
+
+#include "dlb2_priv.h"
+#include "dlb2_iface.h"
+#include "dlb2_inline_fns.h"
+
+/*
+ * This source file is only used when the compiler on the build machine
+ * does not support AVX512VL.
+ */
+
+static uint8_t cmd_byte_map[DLB2_NUM_PORT_TYPES][DLB2_NUM_HW_SCHED_TYPES] = {
+ {
+ /* Load-balanced cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_FWD_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_COMP_CMD_BYTE,
+ },
+ {
+ /* Directed cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_NOOP_CMD_BYTE,
+ },
+};
+
+void
+dlb2_event_build_hcws(struct dlb2_port *qm_port,
+ const struct rte_event ev[],
+ int num,
+ uint8_t *sched_type,
+ uint8_t *queue_id)
+{
+ struct dlb2_enqueue_qe *qe;
+ uint16_t sched_word[4];
+ __m128i sse_qe[2];
+ int i;
+
+ qe = qm_port->qe4;
+
+ sse_qe[0] = _mm_setzero_si128();
+ sse_qe[1] = _mm_setzero_si128();
+
+ switch (num) {
+ case 4:
+ /* Construct the metadata portion of two HCWs in one 128b SSE
+ * register. HCW metadata is constructed in the SSE registers
+ * like so:
+ * sse_qe[0][63:0]: qe[0]'s metadata
+ * sse_qe[0][127:64]: qe[1]'s metadata
+ * sse_qe[1][63:0]: qe[2]'s metadata
+ * sse_qe[1][127:64]: qe[3]'s metadata
+ */
+
+ /* Convert the event operation into a command byte and store it
+ * in the metadata:
+ * sse_qe[0][63:56] = cmd_byte_map[is_directed][ev[0].op]
+ * sse_qe[0][127:120] = cmd_byte_map[is_directed][ev[1].op]
+ * sse_qe[1][63:56] = cmd_byte_map[is_directed][ev[2].op]
+ * sse_qe[1][127:120] = cmd_byte_map[is_directed][ev[3].op]
+ */
+#define DLB2_QE_CMD_BYTE 7
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[0].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[1].op],
+ DLB2_QE_CMD_BYTE + 8);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[2].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[3].op],
+ DLB2_QE_CMD_BYTE + 8);
+
+ /* Store priority, scheduling type, and queue ID in the sched
+ * word array because these values are re-used when the
+ * destination is a directed queue.
+ */
+ sched_word[0] = EV_TO_DLB2_PRIO(ev[0].priority) << 10 |
+ sched_type[0] << 8 |
+ queue_id[0];
+ sched_word[1] = EV_TO_DLB2_PRIO(ev[1].priority) << 10 |
+ sched_type[1] << 8 |
+ queue_id[1];
+ sched_word[2] = EV_TO_DLB2_PRIO(ev[2].priority) << 10 |
+ sched_type[2] << 8 |
+ queue_id[2];
+ sched_word[3] = EV_TO_DLB2_PRIO(ev[3].priority) << 10 |
+ sched_type[3] << 8 |
+ queue_id[3];
+
+ /* Store the event priority, scheduling type, and queue ID in
+ * the metadata:
+ * sse_qe[0][31:16] = sched_word[0]
+ * sse_qe[0][95:80] = sched_word[1]
+ * sse_qe[1][31:16] = sched_word[2]
+ * sse_qe[1][95:80] = sched_word[3]
+ */
+#define DLB2_QE_QID_SCHED_WORD 1
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[0],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[1],
+ DLB2_QE_QID_SCHED_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[2],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[3],
+ DLB2_QE_QID_SCHED_WORD + 4);
+
+ /* If the destination is a load-balanced queue, store the lock
+ * ID. If it is a directed queue, DLB places this field in
+ * bytes 10-11 of the received QE, so we format it accordingly:
+ * sse_qe[0][47:32] = dir queue ? sched_word[0] : flow_id[0]
+ * sse_qe[0][111:96] = dir queue ? sched_word[1] : flow_id[1]
+ * sse_qe[1][47:32] = dir queue ? sched_word[2] : flow_id[2]
+ * sse_qe[1][111:96] = dir queue ? sched_word[3] : flow_id[3]
+ */
+#define DLB2_QE_LOCK_ID_WORD 2
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[0] == DLB2_SCHED_DIRECTED) ?
+ sched_word[0] : ev[0].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[1] == DLB2_SCHED_DIRECTED) ?
+ sched_word[1] : ev[1].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[2] == DLB2_SCHED_DIRECTED) ?
+ sched_word[2] : ev[2].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[3] == DLB2_SCHED_DIRECTED) ?
+ sched_word[3] : ev[3].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+
+ /* Store the event type and sub event type in the metadata:
+ * sse_qe[0][15:0] = flow_id[0]
+ * sse_qe[0][79:64] = flow_id[1]
+ * sse_qe[1][15:0] = flow_id[2]
+ * sse_qe[1][79:64] = flow_id[3]
+ */
+#define DLB2_QE_EV_TYPE_WORD 0
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[0].sub_event_type << 8 |
+ ev[0].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[1].sub_event_type << 8 |
+ ev[1].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[2].sub_event_type << 8 |
+ ev[2].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[3].sub_event_type << 8 |
+ ev[3].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+
+ /*
+ * Store the metadata to memory (use the double-precision
+ * _mm_storeh_pd because there is no integer function for
+ * storing the upper 64b):
+ * qe[0] metadata = sse_qe[0][63:0]
+ * qe[1] metadata = sse_qe[0][127:64]
+ * qe[2] metadata = sse_qe[1][63:0]
+ * qe[3] metadata = sse_qe[1][127:64]
+ */
+ _mm_storel_epi64((__m128i *)&qe[0].u.opaque_data,
+ sse_qe[0]);
+ _mm_storeh_pd((double *)&qe[1].u.opaque_data,
+ (__m128d)sse_qe[0]);
+ _mm_storel_epi64((__m128i *)&qe[2].u.opaque_data,
+ sse_qe[1]);
+ _mm_storeh_pd((double *)&qe[3].u.opaque_data,
+ (__m128d)sse_qe[1]);
+
+ qe[0].data = ev[0].u64;
+ qe[1].data = ev[1].u64;
+ qe[2].data = ev[2].u64;
+ qe[3].data = ev[3].u64;
+
+ break;
+ case 3:
+ case 2:
+ case 1:
+ for (i = 0; i < num; i++) {
+ qe[i].cmd_byte =
+ cmd_byte_map[qm_port->is_directed][ev[i].op];
+ qe[i].sched_type = sched_type[i];
+ qe[i].data = ev[i].u64;
+ qe[i].qid = queue_id[i];
+ qe[i].priority = EV_TO_DLB2_PRIO(ev[i].priority);
+ qe[i].lock_id = ev[i].flow_id;
+ if (sched_type[i] == DLB2_SCHED_DIRECTED) {
+ struct dlb2_msg_info *info =
+ (struct dlb2_msg_info *)&qe[i].lock_id;
+
+ info->qid = queue_id[i];
+ info->sched_type = DLB2_SCHED_DIRECTED;
+ info->priority = qe[i].priority;
+ }
+ qe[i].u.event_type.major = ev[i].event_type;
+ qe[i].u.event_type.sub = ev[i].sub_event_type;
+ }
+ break;
+ case 0:
+ break;
+ }
+}
diff --git a/drivers/event/dlb2/dlb2_sve.c b/drivers/event/dlb2/dlb2_sve.c
new file mode 100644
index 0000000000..82f6588e2a
--- /dev/null
+++ b/drivers/event/dlb2/dlb2_sve.c
@@ -0,0 +1,219 @@
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2016-2020 Intel Corporation
+ */
+
+#include <stdint.h>
+#include <stdbool.h>
+
+#include "dlb2_priv.h"
+#include "dlb2_iface.h"
+#include "dlb2_inline_fns.h"
+
+/*
+ * This source file is only used when the compiler on the build machine
+ * does not support AVX512VL.
+ */
+
+static uint8_t cmd_byte_map[DLB2_NUM_PORT_TYPES][DLB2_NUM_HW_SCHED_TYPES] = {
+ {
+ /* Load-balanced cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_FWD_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_COMP_CMD_BYTE,
+ },
+ {
+ /* Directed cmd bytes */
+ [RTE_EVENT_OP_NEW] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_FORWARD] = DLB2_NEW_CMD_BYTE,
+ [RTE_EVENT_OP_RELEASE] = DLB2_NOOP_CMD_BYTE,
+ },
+};
+
+void
+dlb2_event_build_hcws(struct dlb2_port *qm_port,
+ const struct rte_event ev[],
+ int num,
+ uint8_t *sched_type,
+ uint8_t *queue_id)
+{
+ struct dlb2_enqueue_qe *qe;
+ uint16_t sched_word[4];
+ __m128i sse_qe[2];
+ int i;
+
+ qe = qm_port->qe4;
+
+ sse_qe[0] = _mm_setzero_si128();
+ sse_qe[1] = _mm_setzero_si128();
+
+ switch (num) {
+ case 4:
+ /* Construct the metadata portion of two HCWs in one 128b SSE
+ * register. HCW metadata is constructed in the SSE registers
+ * like so:
+ * sse_qe[0][63:0]: qe[0]'s metadata
+ * sse_qe[0][127:64]: qe[1]'s metadata
+ * sse_qe[1][63:0]: qe[2]'s metadata
+ * sse_qe[1][127:64]: qe[3]'s metadata
+ */
+
+ /* Convert the event operation into a command byte and store it
+ * in the metadata:
+ * sse_qe[0][63:56] = cmd_byte_map[is_directed][ev[0].op]
+ * sse_qe[0][127:120] = cmd_byte_map[is_directed][ev[1].op]
+ * sse_qe[1][63:56] = cmd_byte_map[is_directed][ev[2].op]
+ * sse_qe[1][127:120] = cmd_byte_map[is_directed][ev[3].op]
+ */
+#define DLB2_QE_CMD_BYTE 7
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[0].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[0] = _mm_insert_epi8(sse_qe[0],
+ cmd_byte_map[qm_port->is_directed][ev[1].op],
+ DLB2_QE_CMD_BYTE + 8);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[2].op],
+ DLB2_QE_CMD_BYTE);
+ sse_qe[1] = _mm_insert_epi8(sse_qe[1],
+ cmd_byte_map[qm_port->is_directed][ev[3].op],
+ DLB2_QE_CMD_BYTE + 8);
+
+ /* Store priority, scheduling type, and queue ID in the sched
+ * word array because these values are re-used when the
+ * destination is a directed queue.
+ */
+ sched_word[0] = EV_TO_DLB2_PRIO(ev[0].priority) << 10 |
+ sched_type[0] << 8 |
+ queue_id[0];
+ sched_word[1] = EV_TO_DLB2_PRIO(ev[1].priority) << 10 |
+ sched_type[1] << 8 |
+ queue_id[1];
+ sched_word[2] = EV_TO_DLB2_PRIO(ev[2].priority) << 10 |
+ sched_type[2] << 8 |
+ queue_id[2];
+ sched_word[3] = EV_TO_DLB2_PRIO(ev[3].priority) << 10 |
+ sched_type[3] << 8 |
+ queue_id[3];
+
+ /* Store the event priority, scheduling type, and queue ID in
+ * the metadata:
+ * sse_qe[0][31:16] = sched_word[0]
+ * sse_qe[0][95:80] = sched_word[1]
+ * sse_qe[1][31:16] = sched_word[2]
+ * sse_qe[1][95:80] = sched_word[3]
+ */
+#define DLB2_QE_QID_SCHED_WORD 1
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[0],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ sched_word[1],
+ DLB2_QE_QID_SCHED_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[2],
+ DLB2_QE_QID_SCHED_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ sched_word[3],
+ DLB2_QE_QID_SCHED_WORD + 4);
+
+ /* If the destination is a load-balanced queue, store the lock
+ * ID. If it is a directed queue, DLB places this field in
+ * bytes 10-11 of the received QE, so we format it accordingly:
+ * sse_qe[0][47:32] = dir queue ? sched_word[0] : flow_id[0]
+ * sse_qe[0][111:96] = dir queue ? sched_word[1] : flow_id[1]
+ * sse_qe[1][47:32] = dir queue ? sched_word[2] : flow_id[2]
+ * sse_qe[1][111:96] = dir queue ? sched_word[3] : flow_id[3]
+ */
+#define DLB2_QE_LOCK_ID_WORD 2
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[0] == DLB2_SCHED_DIRECTED) ?
+ sched_word[0] : ev[0].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ (sched_type[1] == DLB2_SCHED_DIRECTED) ?
+ sched_word[1] : ev[1].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[2] == DLB2_SCHED_DIRECTED) ?
+ sched_word[2] : ev[2].flow_id,
+ DLB2_QE_LOCK_ID_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ (sched_type[3] == DLB2_SCHED_DIRECTED) ?
+ sched_word[3] : ev[3].flow_id,
+ DLB2_QE_LOCK_ID_WORD + 4);
+
+ /* Store the event type and sub event type in the metadata:
+ * sse_qe[0][15:0] = flow_id[0]
+ * sse_qe[0][79:64] = flow_id[1]
+ * sse_qe[1][15:0] = flow_id[2]
+ * sse_qe[1][79:64] = flow_id[3]
+ */
+#define DLB2_QE_EV_TYPE_WORD 0
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[0].sub_event_type << 8 |
+ ev[0].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[0] = _mm_insert_epi16(sse_qe[0],
+ ev[1].sub_event_type << 8 |
+ ev[1].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[2].sub_event_type << 8 |
+ ev[2].event_type,
+ DLB2_QE_EV_TYPE_WORD);
+ sse_qe[1] = _mm_insert_epi16(sse_qe[1],
+ ev[3].sub_event_type << 8 |
+ ev[3].event_type,
+ DLB2_QE_EV_TYPE_WORD + 4);
+
+ /*
+ * Store the metadata to memory (use the double-precision
+ * _mm_storeh_pd because there is no integer function for
+ * storing the upper 64b):
+ * qe[0] metadata = sse_qe[0][63:0]
+ * qe[1] metadata = sse_qe[0][127:64]
+ * qe[2] metadata = sse_qe[1][63:0]
+ * qe[3] metadata = sse_qe[1][127:64]
+ */
+ _mm_storel_epi64((__m128i *)&qe[0].u.opaque_data,
+ sse_qe[0]);
+ _mm_storeh_pd((double *)&qe[1].u.opaque_data,
+ (__m128d)sse_qe[0]);
+ _mm_storel_epi64((__m128i *)&qe[2].u.opaque_data,
+ sse_qe[1]);
+ _mm_storeh_pd((double *)&qe[3].u.opaque_data,
+ (__m128d)sse_qe[1]);
+
+ qe[0].data = ev[0].u64;
+ qe[1].data = ev[1].u64;
+ qe[2].data = ev[2].u64;
+ qe[3].data = ev[3].u64;
+
+ break;
+ case 3:
+ case 2:
+ case 1:
+ for (i = 0; i < num; i++) {
+ qe[i].cmd_byte =
+ cmd_byte_map[qm_port->is_directed][ev[i].op];
+ qe[i].sched_type = sched_type[i];
+ qe[i].data = ev[i].u64;
+ qe[i].qid = queue_id[i];
+ qe[i].priority = EV_TO_DLB2_PRIO(ev[i].priority);
+ qe[i].lock_id = ev[i].flow_id;
+ if (sched_type[i] == DLB2_SCHED_DIRECTED) {
+ struct dlb2_msg_info *info =
+ (struct dlb2_msg_info *)&qe[i].lock_id;
+
+ info->qid = queue_id[i];
+ info->sched_type = DLB2_SCHED_DIRECTED;
+ info->priority = qe[i].priority;
+ }
+ qe[i].u.event_type.major = ev[i].event_type;
+ qe[i].u.event_type.sub = ev[i].sub_event_type;
+ }
+ break;
+ case 0:
+ break;
+ }
+}
diff --git a/drivers/event/dlb2/meson.build b/drivers/event/dlb2/meson.build
index f963589fd3..51ea5ec546 100644
--- a/drivers/event/dlb2/meson.build
+++ b/drivers/event/dlb2/meson.build
@@ -19,6 +19,53 @@ sources = files(
'dlb2_selftest.c',
)
+# compile AVX512 version if:
+# we are building 64-bit binary (checked above) AND binutils
+# can generate proper code
+
+if binutils_ok
+
+ # compile AVX512 version if either:
+ # a. we have AVX512VL supported in minimum instruction set
+ # baseline
+ # b. it's not minimum instruction set, but supported by
+ # compiler
+ #
+ # in former case, just add avx512 C file to files list
+ # in latter case, compile c file to static lib, using correct
+ # compiler flags, and then have the .o file from static lib
+ # linked into main lib.
+
+ # check if all required flags already enabled (variant a).
+ dlb2_avx512_on = false
+ if cc.get_define(f, args: machine_args) == '__AVX512VL__'
+ dlb2_avx512_on = true
+ endif
+
+ if dlb2_avx512_on == true
+
+ sources += files('dlb2_avx512.c')
+ cflags += '-DCC_AVX512_SUPPORT'
+
+ elif cc.has_multi_arguments('-mavx512f', '-mavx512vl',
+ '-mavx512cd', '-mavx512bw')
+
+ cflags += '-DCC_AVX512_SUPPORT'
+ avx512_tmplib = static_library('avx512_tmp',
+ 'dlb2_avx512.c',
+ dependencies: [static_rte_eal,
+ static_rte_eventdev],
+ c_args: cflags +
+ ['-mavx512f', '-mavx512vl',
+ '-mavx512cd', '-mavx512bw'])
+ objs += avx512_tmplib.extract_objects('dlb2_avx512.c')
+ else
+ sources += files('dlb2_sse.c')
+ endif
+else
+ sources += files('dlb2_sse.c')
+endif
+
headers = files('rte_pmd_dlb2.h')
deps += ['mbuf', 'mempool', 'ring', 'pci', 'bus_pci']
--
2.25.1
next prev parent reply other threads:[~2022-06-10 15:41 UTC|newest]
Thread overview: 20+ messages / expand[flat|nested] mbox.gz Atom feed top
2022-04-09 15:18 [PATCH] " Timothy McDaniel
2022-05-14 12:07 ` Jerin Jacob
2022-05-16 8:42 ` Bruce Richardson
2022-05-16 17:00 ` McDaniel, Timothy
2022-05-19 20:24 ` [PATCH v3] " Timothy McDaniel
2022-05-23 16:09 ` [PATCH v4] " Timothy McDaniel
2022-05-23 16:34 ` Bruce Richardson
2022-05-23 16:52 ` McDaniel, Timothy
2022-05-23 16:55 ` Bruce Richardson
2022-06-09 17:40 ` Jerin Jacob
2022-06-09 18:02 ` McDaniel, Timothy
2022-05-23 16:37 ` Bruce Richardson
2022-05-23 16:45 ` McDaniel, Timothy
2022-06-10 12:43 ` [PATCH v6] " Timothy McDaniel
2022-06-10 15:41 ` Timothy McDaniel [this message]
2022-06-10 16:15 ` [PATCH v7] " Bruce Richardson
2022-06-10 16:27 ` [PATCH v8] " Timothy McDaniel
2022-06-13 6:30 ` Jerin Jacob
2022-06-13 20:39 ` [PATCH v9] " Timothy McDaniel
2022-06-14 10:40 ` Jerin Jacob
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