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  • Personnaliser en ajoutant son logo, sa bannière ou son image de fond

    5 septembre 2013, par

    Certains thèmes prennent en compte trois éléments de personnalisation : l’ajout d’un logo ; l’ajout d’une bannière l’ajout d’une image de fond ;

  • Participer à sa traduction

    10 avril 2011

    Vous pouvez nous aider à améliorer les locutions utilisées dans le logiciel ou à traduire celui-ci dans n’importe qu’elle nouvelle langue permettant sa diffusion à de nouvelles communautés linguistiques.
    Pour ce faire, on utilise l’interface de traduction de SPIP où l’ensemble des modules de langue de MediaSPIP sont à disposition. ll vous suffit de vous inscrire sur la liste de discussion des traducteurs pour demander plus d’informations.
    Actuellement MediaSPIP n’est disponible qu’en français et (...)

  • MediaSPIP Core : La Configuration

    9 novembre 2010, par

    MediaSPIP Core fournit par défaut trois pages différentes de configuration (ces pages utilisent le plugin de configuration CFG pour fonctionner) : une page spécifique à la configuration générale du squelettes ; une page spécifique à la configuration de la page d’accueil du site ; une page spécifique à la configuration des secteurs ;
    Il fournit également une page supplémentaire qui n’apparait que lorsque certains plugins sont activés permettant de contrôler l’affichage et les fonctionnalités spécifiques (...)

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  • Cortex-A7 instruction cycle timings

    15 mai 2014, par Mans — ARM

    The Cortex-A7 ARM core is a popular choice in low-power and low-cost designs. Unfortunately, the public TRM does not include instruction timing information. It does reveal that execution is in-order which makes measuring the throughput and latency for individual instructions relatively straight-forward.

    The table below lists the measured issue cycles (inverse throughput) and result latency of some commonly used instructions.

    It should be noted that in some cases, the perceived latency depends on the instruction consuming the result. Most of the values were measured with the result used as input to the same instruction. For instructions with multiple outputs, the latencies of the result registers may also differ.

    Finally, although instruction issue is in-order, completion is out of order, allowing independent instructions to issue and complete unimpeded while a multi-cycle instruction is executing in another unit. For example, a 3-cycle MUL instruction does not block ADD instructions following it in program order.

    ALU instructions Issue cycles Result latency
    MOV Rd, Rm 1/2 1
    ADD Rd, Rn, #imm 1/2 1
    ADD Rd, Rn, Rm 1 1
    ADD Rd, Rn, Rm, LSL #imm 1 1
    ADD Rd, Rn, Rm, LSL Rs 1 1
    LSL Rd, Rn, #imm 1 2
    LSL Rd, Rn, Rs 1 2
    QADD Rd, Rn, Rm 1 2
    QADD8 Rd, Rn, Rm 1 2
    QADD16 Rd, Rn, Rm 1 2
    CLZ Rd, Rm 1 1
    RBIT Rd, Rm 1 2
    REV Rd, Rm 1 2
    SBFX Rd, Rn 1 2
    BFC Rd, #lsb, #width 1 2
    BFI Rd, Rn, #lsb, #width 1 2
    NOTE : Shifted operands and shift amounts needed one cycle early.
    Multiply instructions Issue cycles Result latency
    MUL Rd, Rn, Rm 1 3
    MLA Rd, Rn, Rm, Ra 1 31
    SMULL Rd, RdHi, Rn, Rm 1 3
    SMLAL Rd, RdHi, Rn, Rm 1 31
    SMMUL Rd, Rn, Rm 1 3
    SMMLA Rd, Rn, Rm, Ra 1 31
    SMULBB Rd, Rn, Rm 1 3
    SMLABB Rd, Rn, Rm, Ra 1 31
    SMULWB Rd, Rn, Rm 1 3
    SMLAWB Rd, Rn, Rm, Ra 1 31
    SMUAD Rd, Rn, Rm 1 3
    1 Accumulator forwarding allows back to back MLA instructions without delay.
    Divide instructions Issue cycles Result latency
    SDIV Rd, Rn, Rm 4-20 6-22
    UDIV Rd, Rn, Rm 3-19 5-21
    Load/store instructions Issue cycles Result latency
    LDR Rt, [Rn] 1 3
    LDR Rt, [Rn, #imm] 1 3
    LDR Rt, [Rn, Rm] 1 3
    LDR Rt, [Rn, Rm, lsl #imm] 1 3
    LDRD Rt, Rt2, [Rn] 1 3-4
    LDM Rn, regs 1-8 3-10
    STR Rt, [Rn] 1 2
    STRD Rt, Rt2, [Rn] 1 2
    STM Rn, regs 1-10 2-12
    NOTE : Load results are forwarded to dependent stores without delay.
    VFP instructions Issue cycles Result latency
    VMOV.F32 Sd, Sm 1 4
    VMOV.F64 Dd, Dm 1 4
    VNEG.F32 Sd, Sm 1 4
    VNEG.F64 Dd, Dm 1 4
    VABS.F32 Sd, Sm 1 4
    VABS.F64 Dd, Dm 1 4
    VADD.F32 Sd, Sn, Sm 1 4
    VADD.F64 Dd, Dn, Dm 1 4
    VMUL.F32 Sd, Sn, Sm 1 4
    VMUL.F64 Dd, Dn, Dm 4 7
    VMLA.F32 Sd, Sn, Sm 1 81
    VMLA.F64 Dd, Dn, Dm 4 112
    VFMA.F32 Sd, Sn, Sm 1 81
    VFMA.F64 Dd, Dn, Dm 5 82
    VDIV.F32 Sd, Sn, Sm 15 18
    VDIV.F64 Dd, Dn, Dm 29 32
    VSQRT.F32 Sd, Sm 14 17
    VSQRT.F64 Dd, Dm 28 31
    VCVT.F32.F64 Sd, Dm 1 4
    VCVT.F64.F32 Dd, Sm 1 4
    VCVT.F32.S32 Sd, Sm 1 4
    VCVT.F64.S32 Dd, Sm 1 4
    VCVT.S32.F32 Sd, Sm 1 4
    VCVT.S32.F64 Sd, Dm 1 4
    VCVT.F32.S32 Sd, Sd, #fbits 1 4
    VCVT.F64.S32 Dd, Dd, #fbits 1 4
    VCVT.S32.F32 Sd, Sd, #fbits 1 4
    VCVT.S32.F64 Dd, Dd, #fbits 1 4
    1 5 cycles with dependency only on accumulator.
    2 8 cycles with dependency only on accumulator.
    NEON integer instructions Issue cycles Result latency
    VADD.I8 Dd, Dn, Dm 1 4
    VADDL.S8 Qd, Dn, Dm 2 4
    VADD.I8 Qd, Qn, Qm 2 4
    VMUL.I8 Dd, Dn, Dm 2 4
    VMULL.S8 Qd, Dn, Dm 2 4
    VMUL.I8 Qd, Qn, Qm 4 4
    VMLA.I8 Dd, Dn, Dm 2 4
    VMLAL.S8 Qd, Dn, Dm 2 4
    VMLA.I8 Qd, Qn, Qm 4 4
    VADD.I16 Dd, Dn, Dm 1 4
    VADDL.S16 Qd, Dn, Dm 2 4
    VADD.I16 Qd, Qn, Qm 2 4
    VMUL.I16 Dd, Dn, Dm 1 4
    VMULL.S16 Qd, Dn, Dm 2 4
    VMUL.I16 Qd, Qn, Qm 2 4
    VMLA.I16 Dd, Dn, Dm 1 4
    VMLAL.S16 Qd, Dn, Dm 2 4
    VMLA.I16 Qd, Qn, Qm 2 4
    VADD.I32 Dd, Dn, Dm 1 4
    VADDL.S32 Qd, Dn, Dm 2 4
    VADD.I32 Qd, Qn, Qm 2 4
    VMUL.I32 Dd, Dn, Dm 2 4
    VMULL.S32 Qd, Dn, Dm 2 4
    VMUL.I32 Qd, Qn, Qm 4 4
    VMLA.I32 Dd, Dn, Dm 2 4
    VMLAL.S32 Qd, Dn, Dm 2 4
    VMLA.I32 Qd, Qn, Qm 4 4
    NEON floating-point instructions Issue cycles Result latency
    VADD.F32 Dd, Dn, Dm 2 4
    VADD.F32 Qd, Qn, Qm 4 4
    VMUL.F32 Dd, Dn, Dm 2 4
    VMUL.F32 Qd, Qn, Qm 4 4
    VMLA.F32 Dd, Dn, Dm 2 81
    VMLA.F32 Qd, Qn, Qm 4 81
    1 5 cycles with dependency only on accumulator.
    NEON permute instructions Issue cycles Result latency
    VEXT.n Dd, Dn, Dm, #imm 1 4
    VEXT.n Qd, Qn, Qm, #imm 2 5
    VTRN.n Dd, Dn, Dm 2 5
    VTRN.n Qd, Qn, Qm 4 5
    VUZP.n Dd, Dn, Dm 2 5
    VUZP.n Qd, Qn, Qm 4 6
    VZIP.n Dd, Dn, Dm 2 5
    VZIP.n Qd, Qn, Qm 4 6
    VTBL.8 Dd, Dn, Dm 1 4
    VTBL.8 Dd, Dn-Dn+1, Dm 1 4
    VTBL.8 Dd, Dn-Dn+2, Dm 2 5
    VTBL.8 Dd, Dn-Dn+3, Dm 2 5

  • divx to mp4 converted videos using avconv are not playing with jwplayer in Firefox

    30 mai 2014, par Suresh

    I am trying to convert all format videos to mp4 using libav library. I am using the following command to convert any format to mp4 i.e

    "avconv -i input -s 1024x768 -strict 2 -c:v libx264 -c:a copy -f mp4 output.mp4" and it is working fine in chrome and IE where as not working in Firefox and safari.

    You can find the issue here https://ppe.maventus.com/player.php?v=721

    Note : avi to mp4 is working in all browsers.

    Any help to fix this would be much appreciated.

    Thanks in advance,
    Suresh

  • PHP - Problems running ffmpeg.exe with shell_exec on Windows

    30 septembre 2012, par King

    I am trying to encode an FLV file to MP4 with ffmpeg.exe, its all working fine when running the code on the commandprompt (I have tried simply echoing the command and pasting it into the cmdline)

    Note : Using windows.

    Here is the code :
    it does not return anything, and does not encode anything, there are no errors, nothing happens :(, system($cmd, $returnval) returns 1 that's all
    running commands like dir works fine, so I have the required access.

    <?php
    
$title = $_GET['file'];
    
// encoding command > , below shows info "flv/'.$title.'.flv" "mp4/'.$title.'.mp4"
    
$cmd = ('cd C:/inetpub/wwwroot/run/ && ffmpeg.exe -i "flv/'.$title.'.flv"');
    
$ll = system($cmd, $fv);
    
echo "CMD: $cmd \nFull output: $fv \nLL = $ll";
    
?>

    ffmpeg.exe -h will return the help text, I am starting to wonder if it could have something to do with the other outputs having colours in them ?

    Any ideas ? :O

    (The cd is not the problem because $cmd = ('cd C:/inetpub/wwwroot/run/ && ffmpeg.exe -h'); works fine, its actually already in that directory)

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