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Improved coding on slide show content.

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This patch adds in detection of slide show key frame groups.
The detection assumes extremely  low or 0 motion for all frames
in the key frame group.

If this case is detected the boost level is set to a very high value
and the min Q to a lower value for the key frame itself.
Alt refs and golden frames are disabled to save bits (up to a limiting
maximum interval currently set to 240 frames).

In test samples that I created, this patch gave rise to a substantial
improvement in overall psnr and a drop in data rate. In some cases the
average psnr fell, however, with the boost and minQ values set as they are.

This is to be expected because previously a relatively poor key frame
could be followed by progressively better alt refs. For example a key
frame at q7.5 but subsequent alt refs improving it to lossless. Given that
average psnr tends to be dominated by the best frames, a ramp like this
from q7.5 to lossless may give a better average psnr than, for example,
coding the entire sequence at q2.5. Overall psnr, however, will be much
better in the latter case.  The option exists to boost the key frame further
which would  insure much better results for all metrics, but at the expense
of smaller bitrate savings. Given that these samples tend to have very
good quality anyway this seems like a bad trade off.

For slides displayed for several seconds, bitrate savings of >= 20% are likely
and much larger gains are possible in some cases.

Change-Id: Ib4b61e153c55d3f2f561153da13fdb56f397a52b
This commit is contained in:
paulwilkins 2018-01-31 16:42:37 +00:00
parent b78dad3ffa
commit 2fa333c2ae
4 changed files with 48 additions and 26 deletions
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42
vp9/encoder/vp9_firstpass.c
View File

@ -2281,7 +2281,8 @@ static void allocate_gf_group_bits(VP9_COMP *cpi, int64_t gf_group_bits,
// Define middle frame
mid_frame_idx = frame_index + (rc->baseline_gf_interval >> 1) - 1;
normal_frames = (rc->baseline_gf_interval - rc->source_alt_ref_pending);
normal_frames =
rc->baseline_gf_interval - (key_frame || rc->source_alt_ref_pending);
if (normal_frames > 1)
normal_frame_bits = (int)(total_group_bits / normal_frames);
else
@ -2547,9 +2548,9 @@ static void define_gf_group(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
}
// Break out conditions.
if (
// Break at active_max_gf_interval unless almost totally static.
((i >= active_max_gf_interval) && (zero_motion_accumulator < 0.995)) ||
// Break at maximum of active_max_gf_interval unless almost totally static.
if (((twopass->kf_zeromotion_pct < STATIC_KF_GROUP_THRESH) &&
(i >= active_max_gf_interval) && (zero_motion_accumulator < 0.995)) ||
(
// Don't break out with a very short interval.
(i >= active_min_gf_interval) &&
@ -2569,8 +2570,8 @@ static void define_gf_group(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
rc->constrained_gf_group = (i >= rc->frames_to_key) ? 1 : 0;
// Should we use the alternate reference frame.
if (allow_alt_ref && (i < cpi->oxcf.lag_in_frames) &&
(i >= rc->min_gf_interval)) {
if ((twopass->kf_zeromotion_pct < STATIC_KF_GROUP_THRESH) && allow_alt_ref &&
(i < cpi->oxcf.lag_in_frames) && (i >= rc->min_gf_interval)) {
const int forward_frames = (rc->frames_to_key - i >= i - 1)
? i - 1
: VPXMAX(0, rc->frames_to_key - i);
@ -2598,7 +2599,10 @@ static void define_gf_group(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
#endif
// Set the interval until the next gf.
rc->baseline_gf_interval = i - (is_key_frame || rc->source_alt_ref_pending);
rc->baseline_gf_interval =
(twopass->kf_zeromotion_pct < STATIC_KF_GROUP_THRESH)
? (i - (is_key_frame || rc->source_alt_ref_pending))
: i;
// Only encode alt reference frame in temporal base layer. So
// baseline_gf_interval should be multiple of a temporal layer group
@ -3025,8 +3029,14 @@ static void find_next_key_frame(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
double zm_factor;
// Monitor for static sections.
zero_motion_accumulator = VPXMIN(
zero_motion_accumulator, get_zero_motion_factor(cpi, &next_frame));
// First frame in kf group the second ref indicator is invalid.
if (i > 0) {
zero_motion_accumulator = VPXMIN(
zero_motion_accumulator, get_zero_motion_factor(cpi, &next_frame));
} else {
zero_motion_accumulator =
next_frame.pcnt_inter - next_frame.pcnt_motion;
}
// Factor 0.75-1.25 based on how much of frame is static.
zm_factor = (0.75 + (zero_motion_accumulator / 2.0));
@ -3062,10 +3072,16 @@ static void find_next_key_frame(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
twopass->section_intra_rating = calculate_section_intra_ratio(
start_position, twopass->stats_in_end, rc->frames_to_key);
// Apply various clamps for min and max boost
rc->kf_boost = VPXMAX((int)boost_score, (rc->frames_to_key * 3));
rc->kf_boost = VPXMAX(rc->kf_boost, MIN_KF_TOT_BOOST);
rc->kf_boost = VPXMIN(rc->kf_boost, MAX_KF_TOT_BOOST);
// Special case for static / slide show content but dont apply
// if the kf group is very short.
if ((zero_motion_accumulator > 0.99) && (rc->frames_to_key > 8)) {
rc->kf_boost = VPXMAX((rc->frames_to_key * 100), MAX_KF_TOT_BOOST);
} else {
// Apply various clamps for min and max boost
rc->kf_boost = VPXMAX((int)boost_score, (rc->frames_to_key * 3));
rc->kf_boost = VPXMAX(rc->kf_boost, MIN_KF_TOT_BOOST);
rc->kf_boost = VPXMIN(rc->kf_boost, MAX_KF_TOT_BOOST);
}
// Work out how many bits to allocate for the key frame itself.
kf_bits = calculate_boost_bits((rc->frames_to_key - 1), rc->kf_boost,

12
vp9/encoder/vp9_firstpass.h
View File

@ -120,12 +120,12 @@ typedef enum {
typedef struct {
unsigned char index;
unsigned char first_inter_index;
RATE_FACTOR_LEVEL rf_level[(MAX_LAG_BUFFERS * 2) + 1];
FRAME_UPDATE_TYPE update_type[(MAX_LAG_BUFFERS * 2) + 1];
unsigned char arf_src_offset[(MAX_LAG_BUFFERS * 2) + 1];
unsigned char arf_update_idx[(MAX_LAG_BUFFERS * 2) + 1];
unsigned char arf_ref_idx[(MAX_LAG_BUFFERS * 2) + 1];
int bit_allocation[(MAX_LAG_BUFFERS * 2) + 1];
RATE_FACTOR_LEVEL rf_level[MAX_STATIC_GF_GROUP_LENGTH + 1];
FRAME_UPDATE_TYPE update_type[MAX_STATIC_GF_GROUP_LENGTH + 1];
unsigned char arf_src_offset[MAX_STATIC_GF_GROUP_LENGTH + 1];
unsigned char arf_update_idx[MAX_STATIC_GF_GROUP_LENGTH + 1];
unsigned char arf_ref_idx[MAX_STATIC_GF_GROUP_LENGTH + 1];
int bit_allocation[MAX_STATIC_GF_GROUP_LENGTH + 1];
} GF_GROUP;
typedef struct {

12
vp9/encoder/vp9_ratectrl.c
View File

@ -1103,6 +1103,9 @@ static int rc_pick_q_and_bounds_two_pass(const VP9_COMP *cpi, int *bottom_index,
// Baseline value derived from cpi->active_worst_quality and kf boost.
active_best_quality =
get_kf_active_quality(rc, active_worst_quality, cm->bit_depth);
if (cpi->twopass.kf_zeromotion_pct >= STATIC_KF_GROUP_THRESH) {
active_best_quality /= 4;
}
// Allow somewhat lower kf minq with small image formats.
if ((cm->width * cm->height) <= (352 * 288)) {
@ -1866,13 +1869,8 @@ void vp9_rc_set_gf_interval_range(const VP9_COMP *const cpi,
rc->max_gf_interval = vp9_rc_get_default_max_gf_interval(
cpi->framerate, rc->min_gf_interval);
// Extended interval for genuinely static scenes
rc->static_scene_max_gf_interval = MAX_LAG_BUFFERS * 2;
if (is_altref_enabled(cpi)) {
if (rc->static_scene_max_gf_interval > oxcf->lag_in_frames - 1)
rc->static_scene_max_gf_interval = oxcf->lag_in_frames - 1;
}
// Extended max interval for genuinely static scenes like slide shows.
rc->static_scene_max_gf_interval = MAX_STATIC_GF_GROUP_LENGTH;
if (rc->max_gf_interval > rc->static_scene_max_gf_interval)
rc->max_gf_interval = rc->static_scene_max_gf_interval;

8
vp9/encoder/vp9_ratectrl.h
View File

@ -34,6 +34,14 @@ extern "C" {
#define FRAME_OVERHEAD_BITS 200
// Threshold used to define a KF group as static (e.g. a slide show).
// Essentially this means that no frame in the group has more than 1% of MBs
// that are not marked as coded with 0,0 motion in the first pass.
#define STATIC_KF_GROUP_THRESH 99
// The maximum duration of a GF group that is static (for example a slide show).
#define MAX_STATIC_GF_GROUP_LENGTH 250
typedef enum {
INTER_NORMAL = 0,
INTER_HIGH = 1,