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Author: o | 2025-04-25

Recent . VidKeeper Launches. VidKeeper Save videos from popular sites. Launched on June 1st, 2025. 0. 1. Review VidKeeper? Leave a review

Lightscanner 32 Software 1 0 0 23

Windows Internet e Rete VidKeeper 1.0.0.20 VidKeeper1.0.0.20 VidKeeperti aiutascarica qualsiasi video dai siti web più popolarie convertire in MP3, MP4 o MKV. Scarica video da questi e altri siti: YouTube, Facebook, Twitter, Instagram, SoundCloud, TikTok, Dailymotion, Vimeo, Coub, Likee, Bandcamp, Twitch... Scarica facilmente qualsiasi video dai siti web più popolari. Programma disponibile in altre lingue Download VidKeeper Télécharger VidKeeper Herunterladen VidKeeper ダウンロード VidKeeper Descargar VidKeeper Baixar VidKeeper Recensioni degli utenti Valutazione dell'utente Licenza: Prova gratuita Requisiti: Windows XP/ Vista/ Windows 7/ Windows 8/ Windows 10 Lingue: Multi-languages Taglia: 2.88 MB Editore: SOLV Digital Aggiornato: Jan 17, 2021 Pulito Segnala il software Livelli di Sicurezza Per evitare qualsiasi potenziale danno al tuo dispositivo e garantire la sicurezza dei tuoi dati e della tua privacy, il nostro team controlla ogni volta che un nuovo file di installazione viene caricato sui nostri server o collegato a un server remoto e riesamina periodicamente il file per confermarne o aggiornarne lo stato. Sulla base di questo controllo, impostiamo i seguenti livelli di sicurezza per qualsiasi file scaricabile. Pulito È molto probabile che questo programma software sia pulito. Abbiamo scansionato file e URL associati a questo programma software in oltre 60 dei principali servizi antivirus del mondo; non sono state trovate minacce possibili. E non ci sono software di terze parti inclusi. Avvertimento Questo programma è supportato dalla pubblicità e potrebbe offrire l'installazione di programmi di terze parti che non sono necessari. Questi possono includere una barra degli strumenti, il cambiamento della tua homepage, del motore di ricerca predefinito o l'installazione di altri programmi di terze parti. Questi potrebbero essere falsi positivi e si consiglia ai nostri utenti di essere cauti durante l'installazione e l'utilizzo di questo software. Disabile Questo software non è più disponibile per il download. È altamente probabile che questo programma software sia dannoso o abbia problemi di sicurezza o altri motivi. Presenta un rapporto Grazie! Il tuo rapporto è stato inviato. Esamineremo la tua richiesta e prenderemo le misure opportune. Si prega di notare che non riceverai una notifica riguardante qualsiasi azione intrapresa a causa di questo rapporto. Ci scusiamo per qualsiasi inconveniente che ciò possa causare. Apprezziamo il tuo aiuto nel mantenere il nostro sito web pulito e sicuro. VidKeeper usnadňuje stahování videa tím, že automaticky detekuje videa za vás – stačí kliknout a stáhnout. Spravujte svá stahování efektivně pomocí možností pozastavení, obnovení, odstranění a stahování na pozadí. Před stažením si prohlédněte videa a po dokončení si vychutnejte přehrávání a sdílení offline.# Klíčové vlastnosti 1. Automatická detekce videí pro snadné stahování 2. Plně vybavený správce stahování s pozastavením a obnovením 3. Současně stahujte více souborů 4. Vysokorychlostní stahování, včetně HD a velkých souborů 5. Přímo sledujte průběh stahování 6. Podporuje stahování videa i zvuku 7. Vestavěný přehrávač pro přímé přehrávání stažených videí# Jak používat VidKeeper 1. Zkopírujte adresu URL svého oblíbeného videa a vložte ji do aplikace. 2. Aplikace rozpozná video – klikněte na stáhnout. 3. Po dokončení si vychutnejte přehrávání nebo jej uložte lokálně. # Zřeknutí se odpovědnosti - Tato aplikace není přidružena ani podporována žádnou platformou sociálních médií. - Uživatelé jsou zodpovědní za neoprávněné akce, jako je opětovné nahrání obsahu nebo porušení autorských práv.

333 Mrv0541 D 23 24 0 0 1 0 999 V2025 5.8950

1 التعليقات 3.1 k عدد مرات التنزيلالإشهار قم بإزالة الإعلانات والمزيد باستخدام Turboمعلومات حول VidKeeper 1.0.2.0ترخيصحساب مجانينظام التشغيلWindowsالفئةبرامج إدارة التنزيلاتاللغةالعربية 6 لغة زيادةالمؤلفSOLV Digitalالتنزيلات3,077التاريخ2 نوفمبر 2021تقييم المحتوىغير محدّد(ة)الإشهارغير محدّد(ة)لماذا تم نشر هذا التطبيق على Uptodown؟(معلومات أكثر) نسخ أقدمexe1.0.0.1313 نوفمبر 2020exe1.0.0.611 سبتمبر 2020exe1.0.0.48 يوليو 2020exe1.0.0.13 يوليو 2020تقييم هذا التطبيقتقييم1 التعليقات التعليقاتلا توجد آراء حول VidKeeper حتى الآن. كن الأول! تعليقالإشهار قم بإزالة الإعلانات والمزيد باستخدام Turboقم بتسريع تنزيلاتك مع هذا المدبر القويحمل الفيديوهات من أي موقع تشاءقم بتنزيل مقاطع الفيديو عالية الدقة من مجموعة من المواقع المختلفةإدارة التنزيلات الخاصة بك بسرعة وبساطةقم بتسريع عمليات التحميل الخاصة بكقم بتنزيل ملفات عديدة من الإنترنت في نفس الوقت بفعاليةاداة قوية لتدبيرتحميلاتك مع إندماج تام مع المتصفحتنزيل ملفات متعددة بسهولةقم بتنزيل الفيديوهات المفضلة لديك من اليوتيوب (YouTube)قم بتسريع تنزيلاتك مع هذا المدبر القويتوفير ولوج للأنترنيت لأولئك الذين يعانون من الرقابةتطبيق رسمي للولوج إلى الفيس بوك على الوينذوز.أبسطخيار لتنزيل التورنتتطبيق إنستغرام الرسمي للوينذوز.ها قد صار بإمكانك الاستمتاع بفيسبوك على سطح مكتبكحمل الفيديوهات من أي موقع تشاء. Recent . VidKeeper Launches. VidKeeper Save videos from popular sites. Launched on June 1st, 2025. 0. 1. Review VidKeeper? Leave a review

1 0 1 1 0 1 1 0 0 1 1 0 1 1 1 1 - University of Toronto

] [(k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))) + (1m) ]), .factor_real(factor_real[k[m:0](1m)? k[m:0] : k[m:0]-(1m) ]), .factor_imag(factor_imag[k[m:0](1m)? k[m:0] : k[m:0]-(1m) ]), //output data .valid (en_connect[ (m+1)*4 + k ] ), .yp_real (xm_real[ m+1 ][k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))] ), .yp_imag (xm_imag[ m+1 ][(k[m:0]) (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))] ), .yq_real (xm_real[ m+1 ][(k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))) + (1m) ]), .yq_imag (xm_imag[ m+1 ][((k[m:0]) (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))) + (1m) ]) ); end end endgenerate assign valid = en_connect[12]; assign y0_real = xm_real[3][0] ; assign y0_imag = xm_imag[3][0] ; assign y1_real = xm_real[3][1] ; assign y1_imag = xm_imag[3][1] ; assign y2_real = xm_real[3][2] ; assign y2_imag = xm_imag[3][2] ; assign y3_real = xm_real[3][3] ; assign y3_imag = xm_imag[3][3] ; assign y4_real = xm_real[3][4] ; assign y4_imag = xm_imag[3][4] ; assign y5_real = xm_real[3][5] ; assign y5_imag = xm_imag[3][5] ; assign y6_real = xm_real[3][6] ; assign y6_imag = xm_imag[3][6] ; assign y7_real = xm_real[3][7] ; assign y7_imag = xm_imag[3][7] ;endmoduletestbenchtestbench 编写如下，主要用于 16 路实、复数据的连续输入。因为每次 FFT 只有 8 点数据，所以送入的数据比较随意，并不是正弦波等规则的数据。实例 `timescale 1ns/100psmodule test ; reg clk; reg rstn; reg en ; reg signed [23:0] x0_real; reg signed [23:0] x0_imag; reg signed [23:0] x1_real; reg signed [23:0] x1_imag; reg signed [23:0] x2_real; reg signed [23:0] x2_imag; reg signed [23:0] x3_real; reg signed [23:0] x3_imag; reg signed [23:0] x4_real; reg signed [23:0] x4_imag; reg signed [23:0] x5_real; reg signed [23:0] x5_imag; reg signed [23:0] x6_real; reg signed [23:0] x6_imag; reg signed [23:0] x7_real; reg signed [23:0] x7_imag; wire valid; wire signed [23:0] y0_real; wire signed [23:0] y0_imag; wire signed [23:0] y1_real; wire signed [23:0] y1_imag; wire signed [23:0] y2_real; wire signed [23:0] y2_imag; wire signed [23:0] y3_real; wire signed [23:0] y3_imag; wire signed [23:0] y4_real; wire signed [23:0] y4_imag; wire signed [23:0] y5_real; wire signed [23:0] y5_imag; wire signed [23:0] y6_real; wire signed [23:0] y6_imag; wire signed [23:0] y7_real; wire signed [23:0] y7_imag; initial begin clk = 0; //50MHz rstn = 0 ; #10 rstn = 1; forever begin #10 clk = ~clk; //50MHz end end fft8 u_fft ( .clk (clk ), .rstn (rstn ), .en (en ), .x0_real (x0_real), .x0_imag (x0_imag), .x1_real (x1_real), .x1_imag (x1_imag), .x2_real (x2_real), .x2_imag (x2_imag), .x3_real (x3_real), .x3_imag (x3_imag), .x4_real (x4_real), .x4_imag (x4_imag), .x5_real (x5_real), .x5_imag (x5_imag), .x6_real (x6_real), .x6_imag (x6_imag), .x7_real (x7_real), .x7_imag (x7_imag), .valid (valid), .y0_real (y0_real), .y0_imag (y0_imag), .y1_real (y1_real), .y1_imag (y1_imag), .y2_real (y2_real), .y2_imag (y2_imag), .y3_real (y3_real), .y3_imag (y3_imag), .y4_real (y4_real), .y4_imag (y4_imag), .y5_real (y5_real), .y5_imag (y5_imag), .y6_real (y6_real), .y6_imag (y6_imag), .y7_real (y7_real), .y7_imag (y7_imag)); //data input initial begin en = 0 ; x0_real = I was trying to convert a H264 video down to iPod resolution in order to be able to watch on my Palm Pre. It turns out that while video converts just fine, the audio track seems to be dramatically slowed down. I have tested this with both 0.9.3 and svn2907 with similar results.Looking around, it seems that while there are similar reports, there have been no resolutions. FWIW, this is on Snow Leopard running 10.6.1.The output is as follows: [23:52:14] hb_init: checking cpu count[23:52:14] hb_init: starting libhb threadHandBrake svn2907 (2009110101) - Darwin x86_64 - CPUs detectedOpening sample.mp4...[23:52:14] hb_scan: path=sample.mp4, title_index=1[23:52:14] scan: trying to open with libdvdreadlibdvdnav: Using dvdnav version 4.1.3libdvdread: Using libdvdcss version 1.2.10 for DVD accesslibdvdnav:DVDOpenFileUDF:UDFFindFile /VIDEO_TS/VIDEO_TS.IFO failedlibdvdnav:DVDOpenFileUDF:UDFFindFile /VIDEO_TS/VIDEO_TS.BUP failedlibdvdread: Can't open file VIDEO_TS.IFO.libdvdnav: vm: failed to read VIDEO_TS.IFO[23:52:15] dvd: not a dvd - trying as a stream/file insteadInput #0, mov,mp4,m4a,3gp,3g2,mj2, from 'sample.mp4': Duration: 00:00:58.89, start: 0.000000, bitrate: 1668 kb/s Stream #0.0(und): Video: h264, yuv420p, 1280x544 [PAR 1:1 DAR 40:17], 23.98 tbr, 23.98 tbn, 47.95 tbc Stream #0.1(und): Audio: aac, 48000 Hz, 5.1, s16[23:52:15] scan: decoding previews for title 1Scanning title 1...Scanning title 1...Scanning title 1...Scanning title 1...Scanning title 1...[23:52:16] scan: 10 previews, 1280x544, 23.976 fps, autocrop = 0/0/0/0, aspect 2.35:1, PAR 1:1[23:52:16] scan: title (0) job->width:1280, job->height:544[23:52:16] libhb: scan thread found 1 valid title(s)+ title 1: + vts 0, ttn 0, cells 0->0 (0 blocks) + angle(s) 0 + duration: 00:00:58 + size: 1280x544, pixel aspect: 1/1, display aspect: 2.35, 23.976 fps + autocrop: 0/0/0/0 + chapters: + 1: cells 0->0, 0 blocks, duration 00:00:58 + audio tracks: + 1, Unknown (AAC) (iso639-2: und) + subtitle tracks:[23:52:17] 1 job(s) to process[23:52:17] starting job[23:52:17] work: sanitizing track 0 mixdown Dolby Pro Logic II to Stereo[23:52:17] job configuration:[23:52:17] * source[23:52:17] + sample.mp4[23:52:17] + title 1, chapter(s) 1 to 1[23:52:17] + container: mov,mp4,m4a,3gp,3g2,mj2[23:52:17] + data rate: 1668 kbps[23:52:17] * destination[23:52:17] + foo.mp4[23:52:17] + container: MPEG-4 (.mp4 and .m4v)[23:52:17] * video track[23:52:17] + decoder: h264[23:52:17] + frame rate: same as source (around 23.976 fps)[23:52:17] + dimensions: 1280 * 544 -> 480 * 320, crop 0/0/0/0[23:52:17] + encoder: FFmpeg[23:52:17] + bitrate: 1000 kbps, pass: 0[23:52:17] * audio track 0[23:52:17] + decoder: Unknown (AAC) (track 1, id 1)[23:52:17] + mixdown: Stereo[23:52:17] + encoder: faac[23:52:17] + bitrate: 160 kbps, samplerate: 48000 Hzlibdvdnav: Using dvdnav version 4.1.3libdvdread: Using libdvdcss version 1.2.10 for DVD accesslibdvdnav:DVDOpenFileUDF:UDFFindFile /VIDEO_TS/VIDEO_TS.IFO failedlibdvdnav:DVDOpenFileUDF:UDFFindFile /VIDEO_TS/VIDEO_TS.BUP failedlibdvdread: Can't open file VIDEO_TS.IFO.libdvdnav: vm: failed to read VIDEO_TS.IFO[23:52:17] dvd: not a dvd - trying as a stream/file instead[23:52:17] reader: first SCR 3753 id 0 DTS 0[23:52:17] sync: expecting 1435 video framesEncoding: task 1 of 1, 0.00 %[23:52:17] sync: first pts is 3753Encoding: task 1 of 1, 95.05 % (33.21 fps, avg 35.73 fps, ETA 00h00m02s)[23:52:56] reader: done. 1 scr changesEncoding: task 1 of 1, 96.72 % (34.55 fps, avg 35.52 fps, ETA 00h00m01s)[23:52:56] sync: got 1410 frames, 1435 expected[23:52:56] work: average encoding speed for job is 35.522232 fpsEncoding: task 1 of 1, 98.26 % (34.55 fps, avg 35.52 fps, ETA 00h00m01s)[23:52:58] mux: track 0, 1410 frames, 5452132

Dutching on 0 – 0, 0 – 1 and 0 - MarketFeeder

13bits because of Wnr assign yp_real = {yp_real_r[39], yp_real_r[13+23:13]}; assign yp_imag = {yp_imag_r[39], yp_imag_r[13+23:13]}; assign yq_real = {yq_real_r[39], yq_real_r[13+23:13]}; assign yq_imag = {yq_imag_r[39], yq_imag_r[13+23:13]}; assign valid = en_r[2];endmodule顶层例化根据 FFT 算法结构示意图，将蝶形单元例化，完成最后的 FFT 功能。可根据每一级蝶形单元的输入输出对应关系，依次手动例化 12 次，也可利用 generate 进行例化，此时就需要非常熟悉 FFT 中"组"和"级"的特点：(1) 8 点 FFT 设计，需要 3 级运算，每一级有 4 个蝶形单元，每一级的组数目分别是 4、2、1。(2) 每一级的组内一个蝶形单元中两个输入端口的距离恒为 （m 为级标号，对应左移运算 1(3) 每一级相邻组间的第一个蝶形单元的第一个输入端口的距离为 （对应左移运算 2例化代码如下。其中，矩阵信号 xm_real（xm_imag）的一维、二维地址是代表级和组的标识。在判断信号端口之间的连接关系时，使用了看似复杂的判断逻辑，而且还带有乘号，其实最终生成的电路和手动编写代码例化 12 个蝶形单元的方式是完全相同的。因为 generate 中的变量只是辅助生成实际的电路，相关值的计算判断都已经在编译时完成。这些变量更不会生成实际的电路，只是为更快速的模块例化提供了一种方法。实例 timescale 1ns/100psmodule fft8 ( input clk, input rstn, input en, input signed [23:0] x0_real, input signed [23:0] x0_imag, input signed [23:0] x1_real, input signed [23:0] x1_imag, input signed [23:0] x2_real, input signed [23:0] x2_imag, input signed [23:0] x3_real, input signed [23:0] x3_imag, input signed [23:0] x4_real, input signed [23:0] x4_imag, input signed [23:0] x5_real, input signed [23:0] x5_imag, input signed [23:0] x6_real, input signed [23:0] x6_imag, input signed [23:0] x7_real, input signed [23:0] x7_imag, output valid, output signed [23:0] y0_real, output signed [23:0] y0_imag, output signed [23:0] y1_real, output signed [23:0] y1_imag, output signed [23:0] y2_real, output signed [23:0] y2_imag, output signed [23:0] y3_real, output signed [23:0] y3_imag, output signed [23:0] y4_real, output signed [23:0] y4_imag, output signed [23:0] y5_real, output signed [23:0] y5_imag, output signed [23:0] y6_real, output signed [23:0] y6_imag, output signed [23:0] y7_real, output signed [23:0] y7_imag ); //operating data wire signed [23:0] xm_real [3:0] [7:0]; wire signed [23:0] xm_imag [3:0] [7:0]; wire en_connect [15:0] ; assign en_connect[0] = en; assign en_connect[1] = en; assign en_connect[2] = en; assign en_connect[3] = en; //factor, multiplied by 0x2000 wire signed [15:0] factor_real [3:0] ; wire signed [15:0] factor_imag [3:0]; assign factor_real[0] = 16'h2000; //1 assign factor_imag[0] = 16'h0000; //0 assign factor_real[1] = 16'h16a0; //sqrt(2)/2 assign factor_imag[1] = 16'he95f; //-sqrt(2)/2 assign factor_real[2] = 16'h0000; //0 assign factor_imag[2] = 16'he000; //-1 assign factor_real[3] = 16'he95f; //-sqrt(2)/2 assign factor_imag[3] = 16'he95f; //-sqrt(2)/2 //输入初始化，和码位有关倒置 assign xm_real[0][0] = x0_real; assign xm_real[0][1] = x4_real; assign xm_real[0][2] = x2_real; assign xm_real[0][3] = x6_real; assign xm_real[0][4] = x1_real; assign xm_real[0][5] = x5_real; assign xm_real[0][6] = x3_real; assign xm_real[0][7] = x7_real; assign xm_imag[0][0] = x0_imag; assign xm_imag[0][1] = x4_imag; assign xm_imag[0][2] = x2_imag; assign xm_imag[0][3] = x6_imag; assign xm_imag[0][4] = x1_imag; assign xm_imag[0][5] = x5_imag; assign xm_imag[0][6] = x3_imag; assign xm_imag[0][7] = x7_imag; //butter instantiaiton //integer index[11:0] ; genvar m, k; generate //3 stage for(m=0; m2; m=m+1) begin: stage for (k=0; k3; k=k+1) begin: unit butterfly u_butter( .clk (clk ) , .rstn (rstn ) , .en (en_connect[m*4 + k] ) , //是否再组内？组编号+组内编号：下组编号+新组内编号 .xp_real (xm_real[ m ] [k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))] ), .xp_imag (xm_imag[ m ] [k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))] ), .xq_real (xm_real[ m ] [(k[m:0] (1m) ? (k[3:m] (m+1)) + k[m:0] : (k[3:m] (m+1)) + (k[m:0]-(1m))) + (1m) ]), //增加蝶形单元两个输入端口间距离 .xq_imag (xm_imag[ m

Dutching on 0 0, 0 1 and 0 - MarketFeeder

- 03/24 00:15 Full A.Bilbao (Aladdin) 0 - 1 A.Madrid (val) +0.5 1 - 1 1 - 1 3.5, 4.0 Under 43 - 37 - 1 03/24 00:15 Full Villarreal (Pele) 2 - 1 Barcelona (Nio) -0.5 1 - 0 1 - 0 3.0, 3.5 Under 40 - 42 2 - 1 03/24 00:00 Full Villarreal (Pele) 1 - 2 A.Madrid (val) -0.5, -1.0 2 - 0 2 - 0 3.5, 4.0 Under 48 - 41 1 - 2 03/23 23:30 Full Barcelona (Nio) 0 - 1 A.Madrid (val) +0.5 3 - 0 3 - 0 3.0 Under 39 - 28 - 1 03/23 23:15 Full Barcelona (Nio) 1 - 3 A.Bilbao (Aladdin) +0.5 1 - 2 1 - 2 3.5, 4.0 Over 45 - 35 1 - 3 03/23 23:00 Full Villarreal (Pele) 2 - 2 A.Bilbao (Aladdin) 0.0 2 - 3 2 - 3 4.0, 4.5 Under 32 - 41 2 - 2 03/23 22:45 Full A.Madrid (val) 1 - 2 A.Bilbao (Aladdin) +0.5, +1.0 0 - 1 0 - 1 3.5, 4.0 Under 42 - 40 1 - 2 03/23 22:45 Full Barcelona (Nio) 1 - 1 Villarreal (Pele) +0.5 1 - 0 1 - 0 3.0 Under 34 - 39 2 - 1 03/23 22:30 Full A.Madrid (val) 3 - 2 Villarreal (Pele) 0.0, +0.5 1 - 1 1 - 1 3.5, 4.0 Over 42 - 41 3 - 2 03/23 22:15 Full Chelsea (val) 0 - 0 Rapid Vienna (Nio) -0.5 0 - 1 0. Recent . VidKeeper Launches. VidKeeper Save videos from popular sites. Launched on June 1st, 2025. 0. 1. Review VidKeeper? Leave a review

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(Aladdin) 2 - 0 2 - 0 44 - 43 1 - 2 03/23 19:56 Full Chelsea (val) 0 - 2 Real Betis (Pele) 0.0,+0.5 1 - 2 1 - 2 3.5,4.0 Under 47 - 47 - 2 03/23 19:56 Fiorentina (Aladdin) 0 - 0 Panathinaikos (Xerxes) 0.0 0 - 0 0 - 0 4.5 - - 03/23 11:31 Full PSV (Diego) 6 - 5 Benfica (Carlos) 2 - 1 2 - 1 36 - 27 6 - 5 03/23 11:31 Full Aston Villa (Arthur) 0 - 2 Bayer 04 (Lucas) 1 - 0 1 - 0 36 - 40 - 2 03/23 11:16 Full Barcelona (Delpiero) 0 - 0 Bayer 04 (Lucas) 0 - 1 0 - 1 39 - 40 - 03/23 11:16 Full Aston Villa (Arthur) 2 - 2 Benfica (Carlos) 4 - 0 4 - 0 46 - 48 2 - 2 03/23 11:00 Full Barcelona (Delpiero) 2 - 5 PSV (Diego) +1 2 - 3 2 - 3 5.5 Over 43 - 38 2 - 5