Moving-average-system-dsp

Moving-average-system-dsp

Trading-out-of-of-options
Akun standar-bank-online-share-trading-demo-account
Kami-opsi-opsi biner


Optionsxpress-xtend-trading-platform Icici-online-trading-guide Jual-trading-cards-online-uk Nifty-option-trading-methods Top-trading-strategy Ikut-bisnis-forex

Mungkin Anda juga bisa berbagi ungkapan yang digunakan untuk menghitung kurva BER teoritis Ada banyak kasus di mana kurva yang diturunkan dari ekspresi teoritis untuk probabilitas kesalahan simbol telah dibandingkan dengan kurva simulasi untuk probabilitas kesalahan bit (dan sebaliknya) yang dihasilkan Dalam banyak kebingungan dan sakit hati. Kesalahan dalam menghitung SNR, atau menerjemahkan SNR yang diberikan ke sinyal amplitudo, biasa terjadi juga. Ndash Dilip Sarwate 19 Jan 12 at 22:18 Penjelasan sederhana adalah bahwa ada kesalahan dalam simulasi Anda. Heres satu yang bekerja di MATLAB: Perhatikan bahwa ekspresi teoritis untuk tingkat kesalahan bit untuk modulasi BPSKQPSK adalah: ingatlah bahwa Eb adalah energi per bit informasi. Perbedaan agak halus antara Eb dan Es, energi per simbol. Adalah sesuatu yang sering membuat orang naik ke topik baru. Perbedaan ini juga menjelaskan mengapa QPSK dan BPSK memiliki tingkat kesalahan bit yang sama ketika dinyatakan sebagai fungsi dari frac Anda tidak mendapatkan keuntungan kinerja bit-error dengan berpindah ke QPSK, walaupun Anda dapat mencapai bit rate tertentu dengan bandwidth yang kurang terisi. Jawab Jan 20 12 jam 15:15 Seperti yang saya catat dalam komentar saya tentang pertanyaan utama, sumber kebingungan lainnya adalah bahwa tingkat kesalahan simbol adalah Ps 2Qleft (sqrt right) - leftQleft (sqrt right) right2 karena simbolnya salah jika di Paling sedikit satu bit didemodulasi secara salah, kesalahan bit pada cabang in-phase dan quadrature adalah independen, dan P (Acup B) P (A) P (B) - P (Acap B) P (A) P (B) - P (A) P (B) 2p-p2 untuk kejadian bebas probabilitas p ndash Dilip Sarwate 20 Jan 12 di 17:53 Dapatkah saya mengajukan pertanyaan Bagaimana Anda menghitung energi per bit yang saya maksud, pada kenyataannya, sama sekali tidak sama? Jadi, bisakah Anda menjelaskan secara nyata bagaimana cara menghitung energi per bit Terima kasih banyak ndash Khanh Nguyen 25 Sep 13 di 11: 45Mulai dengan Energia Petunjuk langkah demi langkah untuk menyiapkan IDE Energia dan menjalankan Sketsa pertama Anda pada sebuah Papan peluncur Texas Instruments. Lingkungan Hidup. Deskripsi lingkungan pengembangan Energia. Papan. Gunakan manajer dewan untuk memasang dukungan tambahan core (baru di Energia 18). Preferensi. Berkas preferensi Energia berisi banyak pilihan untuk menyesuaikan cara menyusun dan meng-upload sketsa Energia. Membangun Proses Cari tahu langkah-langkah apa yang harus dilakukan sketsa Anda dalam perjalanan ke papan Launchpad. Pemetaan Pin Daftar lengkap semua gambar dan instruksi Pemetaan Pin untuk setiap papan perangkat keras yang didukung Energia. Perpustakaan Daftar lengkap semua add-on libraries yang didukung oleh Energia. Simak tutorial ini untuk Energia 18 Build IDE from Source. Gunakan basis kode terbaru dari Github untuk membuat build Energia. Impor ke Kode Komposer Studio. Gunakan fungsi Energia dan sketsa di CCS versi 6, IDE berbasis Eclipse TI8217s. Impor ke Cloud CCS: Gunakan fungsi Energia dan sketsa di Cloud CCS. IDE berbasis browser TI8217s. Dasar-dasar Bagian ini berisi penjelasan beberapa elemen elektronik, perangkat keras Launchpad, perangkat lunak Energia, dan konsep di baliknya. Sketsa. Berbagai komponen sketsa (program Energia) dan cara kerja listrik. Prinsip yang memberi kekuatan pada Sirkuit elektronik. Konsep dasar untuk desain listrik Tegangan. Muatan listrik diangkut antara dua titik saat ini. Aliran elektron dalam Pin Pin Microcontrollers kawat. Bagaimana pin bekerja dan apa artinya bagi mereka untuk dikonfigurasi sebagai input atau output. Pin input analog Rincian tentang konversi analog-ke-digital dan penggunaan pin lainnya. PWM. Bagaimana fungsi analogWrite () mensimulasikan keluaran analog menggunakan modulasi lebar pulsa. Ingatan. Berbagai jenis memori yang tersedia di papan LaunchPad. Timer: penghitung digital bahwa kenaikan atau penurunan pada frekuensi tetap digunakan untuk menyinkronkan sistem elektronik. Register: sebuah tempat untuk informasi tentang beberapa kondisi perangkat keras. Sensor Sensor digunakan untuk mendeteksi dan mengukur sinyal analog dari lingkungan. Teknik Pemrograman Variabel Bagaimana mendefinisikan dan menggunakan variabel Fungsi. Cara menentukan dan menggunakan fungsi Libraries. Bagaimana menulis perpustakaan Anda sendiri Bit Manipulation. Cara menggunakan sedikit komunikasi komunikasi. Cara menggunakan protokol untuk melewatkan data Multitasking. Cara mengatur aplikasi multithreaded Elemen Elektronika Elemen Dasar. Permukaan prototyping untuk membuat sirkuit Solderless Wires. Sambungkan komponen dan sistem listrik Resistor. Ubah voltase rangkaian dan kapasitor arus Anda. Menyimpan energi di sirkuit Filter: menghapus atau meningkatkan komponen frekuensi dari sinyal Amplifiers: meningkatkan kekuatan sinyal Transistor. Memperkuat dan mengganti sinyal elektronik Induktor: menolak perubahan arus listrik Switches. Ubah jalur aliran listrik Tombol Push: menyuntikkan sinyal ke sirkuit Diode. Memungkinkan aliran listrik hanya dalam satu arah LED. Dioda pemancar cahaya bertindak sebagai indikator visual Meter, Scopes, and Analyzers. Gunakan alat ini untuk mengukur Sirkuit Terpadu Tegangan dan arus. Komponen yang bisa melakukan operasi kompleks Fungsi Inti Program sederhana yang mendemonstrasikan perintah dasar Energia. Ini disertakan dengan lingkungan Energia untuk membukanya, klik tombol Open pada toolbar dan cari di folder contoh. Untuk beberapa contoh, perangkat keras tambahan diperlukan. Ini dapat diperoleh secara terpisah atau dengan peralatan starter elektronik yang populer. Kit Dasar Sidekick untuk TI LaunchPad dari Seeedstudio sangat direkomendasikan oleh komunitas Energia. BareMinimum. Minimal kode yang dibutuhkan untuk memulai sketsa Energia. Berkedip. Hidupkan LED dan matikan. DigitalReadSerial. Baca sebuah saklar, cetak keadaan ke Energia Serial Monitor. AnalogReadSerial. Baca potensiometer, cetaklah ke keadaan tersebut ke Energia Serial Monitor. Luntur. Menunjukkan penggunaan keluaran analog untuk memudarkan LED. ReadAnalogVoltage. Membaca input analog dan mencetak voltase ke monitor serial Blink Without Delay. Berkedip LED tanpa menggunakan fungsi delay (). Tombol. Gunakan tombol tekan untuk mengendalikan LED. Debounce. Baca tombol tekan, menyaring noise. Tombol Ubah Negara Menghitung jumlah tombol pushes. Input Pullup Serial. Menunjukkan penggunaan INPUTPULLUP dengan pinMode (). Nada. Memainkan melodi dengan speaker Piezo. Pitch follower. Putar pitch pada speaker piezo tergantung pada input analog. Keyboard Sederhana Keyboard musik tiga tombol menggunakan sensor gaya dan speaker piezo. Tone4. Putar nada pada beberapa speaker secara berurutan dengan menggunakan perintah tone (). AnalogInOutSerial. Baca pin input analog, daftarkan hasilnya, lalu gunakan data tersebut untuk meredupkan atau mencerahkan LED. Masukan analog Gunakan potensiometer untuk mengendalikan kedipan LED. AnalogWrite. Memudar 7 LED on dan off, satu per satu, menggunakan papan LaunchPad MSP430G2. Kalibrasi. Tentukan maksimum dan minimum untuk nilai sensor analog yang diharapkan. Kabur. Gunakan analog output (pin PWM) untuk memudar LED. Smoothing. Pembacaan beberapa input analog yang halus. 4munication Contoh ini termasuk kode yang memungkinkan LaunchPad berbicara dengan sketsa Pengolahan yang berjalan di komputer. Untuk informasi lebih lanjut atau untuk mendownload Processing, lihat processing.org. ReadASCIIString. Parse string koma yang dipisahkan koma untuk memudar Tabel ASCII LED. Menunjukkan fungsi output serial Energia8217s yang canggih. Lampu dim. Gerakkan mouse untuk mengubah kecerahan LED. Grafik. Kirim data ke komputer dan gambarkan di Processing. Pixel Fisik. Matikan LED dan matikan dengan mengirim data ke Launchpad dari Processing. Mixer Warna Virtual. Kirim beberapa variabel dari LaunchPad ke komputer Anda dan baca di Processing. Respon Panggilan Serial. Kirim beberapa vairables menggunakan metode call-and-response (handshaking). Respon Panggilan Serial ASCII. Kirim beberapa variabel menggunakan metode call-and-response (handshaking), dan ASCII-menyandikan nilai sebelum mengirim. SerialEvent. Menunjukkan penggunaan SerialEvent (). Masukan serial (Pernyataan Switch (case)). Cara mengambil tindakan berbeda berdasarkan karakter yang diterima oleh port serial. 5.Kontrol Struktur Jika Pernyataan (Bersyarat): bagaimana menggunakan pernyataan if untuk mengubah kondisi keluaran berdasarkan perubahan kondisi input. Untuk Loop. Mengendalikan beberapa LED dengan for loop. Array Sebuah variasi pada contoh For Loop yang menunjukkan bagaimana menggunakan sebuah array. Sementara Loop. Cara menggunakan loop sementara untuk mengkalibrasi sensor saat tombol sedang dibaca. Beralihlah. Bagaimana memilih antara jumlah nilai yang berbeda. Setara dengan banyak Jika pernyataan. Contoh ini menunjukkan bagaimana membagi rentang sensor8217 menjadi satu set dari empat band dan mengambil empat tindakan berbeda tergantung pada band mana hasilnya berada. Kasus Beralih 2. Contoh kasus switch kedua, menunjukkan bagaimana melakukan tindakan yang berbeda berdasarkan karakter. Diterima di port serial StringAdditionOperator. Tambahkan senar bersama dalam berbagai cara. StringAppendOperator Tambahkan data ke string StringCaseChanges. Mengubah kasus string StringCharacters Getset nilai karakter tertentu dalam sebuah string. StringComparisonOperator. Bandingkan string secara alfabet. StringConstructors. Bagaimana cara menginisialisasi objek string StringIndexOf. Mencari contoh firstlast karakter dalam sebuah string. StringLength amp StringLengthTrim. Mendapatkan dan memangkas panjang string. StringReplace Ganti karakter individu dalam sebuah string StringStartsWithEndsWith. Periksa karakter mana yang memiliki string awal atau akhiri. StringSubstring Cari 8220phrases8221 dalam string yang diberikan. 7.Sensor, Motor, amp Menampilkan Suhu: gunakan pada sensor suhu inti MCU. Tilt Sensor: gunakan sensor tilt dasar. Servo: pindahkan servo untuk mengendalikan benda mekanis. Motor Dasar: putar motor dasar. 7 Tampilan Segmen: tampilkan nomor dasar dan nilai huruf. 221516 Character Display: output string ke tampilan karakter. 8. Tombol MultiThreadingEvent: Baca satu tombol dalam satu tugas dan minta tugas lain menunggu tombol ditekan EventLibrary: Mengirim sebuah acara dalam satu tugas dan menunggu tugas lain untuk acara Monitor: Menampilkan penggunaan CPU, penggunaan memori tugas, dll. Membutuhkan terminal VT100 MultiAnalogInput. Membaca input analog dalam tugas differents pada tingkat yang berbeda MultiBlink. Berkedip 3 LED pada tingkat yang berbeda MultiTaskSerial: Menampilkan 2 benang yang mengirim string ke monitor Serial pada tingkat yang berbeda 9.Connectivity WiFi: Contoh perpustakaan WiFi MQTT. Gunakan protokol ringan MQTT untuk mengaktifkan aplikasi IoT amp M2M StandardFirmata. Gunakan protokol firmata untuk berkomunikasi secara dinamis dengan mikrokontroller Temboo. Akses ratusan API web melalui Temboo menggunakan Energia ATampT M2X. Post Energia data ke ATampT M2X layanan cloud BLE Mini. Gunakan Red Bear Lab BLE Mini untuk mengendalikan Anda LaunchPad Freeboard.io: Buat dasbor awan dengan data Energia Anda menggunakan freeboard.io Contiki: Akses OS Contiki untuk IoT menggunakan Energia 10.BoosterPacks Olimex8x8matrix: buat tenda bergulir dengan matriks LED. Sharp LCD Display: menampilkan gambar dan teks pada LCD berdaya rendah EducationalBP: buat magic 8 ball dengan accelerometer dan display LCD. PendidikanBP MKII. Contoh yang melibatkan buzzer, LCD, LED, accelerometer, tombol push, dan lebih banyak CC3000. Pengantar SimpleLink WiFi CC3000 BoosterPack CC3100. Pengenalan SimpleLink WiFi CC3100 BoosterPack Tutorial Lainnya Sidekick untuk TI LaunchPad. Gunakan Seeedstudio Sidekick Basic Kit untuk TI LaunchPad dengan Energia SIK untuk LaunchPad. Gunakan Sparkfun Inventor8217s Kit dengan Energia Grove Starter Kit untuk LaunchPad. Gunakan modul Grove untuk mengakses sensor dan komponen untuk prototyping O-Scope Operation. Belajar menggunakan Tektronix Oscilloscope dengan MSP430 Launchpad LabVIEW Home: Gunakan Energia dalam Instrumen Nasional LabVIEW Processing: Buat GUI dan representasi visual dari data Energia menggunakan Processing IDE Energia.nulearn. Lokakarya penuh pada mesin IoP Energia. Pelajari cara membuat mesin popcorn yang terhubung dengan internet Energy Trace. Pelajari bagaimana mengukur konsumsi energi dalam sistem Energia Anda Memperluas dan Mengembangkan Energia Menambahkan Konten Web: bagaimana memberi sumbangan tutorial dan referensi baru ke situs Energia. Menulis Perpustakaan Membuat perpustakaan untuk memperluas fungsionalitas Energia. Pergi selangkah demi selangkah melalui proses pembuatan perpustakaan dari sketsa. Bangun Energia dari Sumber. Bagaimana membangun Energia di komputer Anda dari basis kode terbaru. Preferensi. Energia preferences file berisi banyak pilihan untuk menyesuaikan cara Energia mengkompilasi dan mengunggah sketsa. Membangun Proses Cari tahu langkah-langkah apa yang harus dilakukan sketsa Anda dalam perjalanan ke papan Launchpad. Sumber. Browsing online kode sumber Energia (di situs eksternal) Bug. Daftar perangkat lunak Energia saat ini (di situs eksternal). Wiki. Rincian teknis energia, perangkat tambahan, isu, referensi dapat ditemukan di Wiki (di situs eksternal). Sketsa Energia berbasis CC dan dikompilasi dengan kompiler open source MSPGCC. Bahasa Energia berasal dari Wiring. Lingkungan Energia didasarkan pada Pengolahan dan termasuk modifikasi yang dilakukan oleh Wiring. Energia BYOB (Build Your Own BoosterPack). Pembuat petunjuk terfokus untuk merancang dan membangun BoosterPack yang kompatibel dengan LaunchPad Anda sendiri. TI BYOB (Build Your Own BoosterPack). Petunjuk resmi TI untuk merancang dan membangun BoosterPack yang kompatibel dengan LaunchPad Anda sendiri. Twitter FeedRefine DSP perusahaan dan produk: Klik pada setiap vendor untuk melihat daftar produk DSP terkait. FMC645 adalah kartu PCC Digital Signal Processor FMC berdasarkan perangkat Texas Instruments TMS320C6455. Kartu putri FMC645 secara mekanis dan elektrik sesuai dengan standar FMC (ANSIVITA 57.1). Kartu ini memiliki konektor penghitung pin tinggi dan dapat digunakan dalam lingkungan yang didinginkan konduksi. Kartu ini dilengkapi dengan power supply dan pemantauan suhu dan menawarkan beberapa mode power-down untuk mematikan fungsi dan antarmuka periferal yang tidak terpakai. Beberapa pasangan diferensial Gigabit dari konektor FMC digunakan untuk mengimplementasikan antarmuka PCIe dan Serial Rapid IO antara FMC dan carrier. Banyak antarmuka IO digital lainnya juga tersedia untuk operator FMC. Karena penggunaan penerjemah level antara DSP dan konektor FMC, FMC645 dapat sepenuhnya beroperasi pada operator sesuai VITA 57.1. A 512 MB DDR2 SDRAM on-board bank terhubung langsung ke DSP sehingga memberikan FMC645 sumber daya memori yang dibutuhkan untuk aplikasi pemrosesan sinyal yang menuntut. () FM577The FM577 adalah papan berbasis FPGA berkapasitas rendah dan berdaya rendah yang tersedia dalam faktor bentuk PMC () FM485Dual FPGA Virtex-5 dan Virtex-4 dengan 128 MB DDR2 dan 16 MB Memori Lokal SDD QDRII PMC-X Dan XMC untuk pemrosesan konversi analog DSP bandwidth tinggi () FM486Dual FPGA Virtex-5 Virtex-4 sampai dengan 512 MB DDR3 dan 8 MB SDRAM QDRII Memori Lokal PMC-X dan XMC untuk pemrosesan konversi analog DSP bandwidth tinggi () FM482Dual Prosesor Sinyal FPGA Xilinx Virtex-4 PMCXMC () DSP DSP untuk regenerasi sinyal analog berkecepatan tinggi dan pemrosesan sinyal digital () ADC DSP untuk pengambilan sinyal analog berkecepatan tinggi dan pemrosesan sinyal digital () papan CPCI381A 3U CompactPCI yang menyediakan platform yang kuat Untuk menangkap sinyal analog berkecepatan tinggi dan pemrosesan sinyal digital () TMS320C32 floating point DSP, berjalan pada 60 MHz, memberikan 30 MIPS Dua sampling simultan Saluran 12-bit AD Tingkat sampling yang dapat diprogram sampai 7.5 Msamplessec Menyediakan platform yang kuat untuk analog kecepatan tinggi sinyal Pengambilan dan pemrosesan sinyal digital () Dua saluran input analog dapat dilakukan secara simultan sampling (maksimum) 7,5 tingkat sampling MSps Perangkat lunak lokal memungkinkan pemrosesan sinyal yang lebih baik dan khusus pengguna Keuntungan dan kesalahan offset dikompensasi oleh dewan CPCI383A 3U CompactPCI DSP yang memiliki kekuatan Platform untuk sinyal analog berkecepatan tinggi (re) generasi dan pemrosesan sinyal digital () TMS320C32 floating point DSP, berjalan pada 60 MHz, memberikan 30 MIPS Tiga saluran DA 16-bit berkecepatan tinggi, tingkat output Analog adalah perangkat lunak yang dapat diprogram sampai 7.5 Msamplessec (Menggunakan DMA, saluran tunggal) Menyediakan platform yang kuat untuk pemrosesan sinyal analog berkecepatan tinggi (re) dan pemrosesan sinyal digital () Analog dan digital IO () Analog dan digital IO () M403 8-Channel Differential Input ADC M-module Sangat sesuai untuk digunakan dalam aplikasi di mana konversi sinyal otonom menjadi masalah, begitu juga pada aplikasi mid-range standar () Saluran yang diaktifkan dipindai dengan kecepatan maksimum dan Hasil konversi disimpan dalam memori bersama DSP lokal melakukan semua fungsionalitas dan fungsi spesifik pengguna dapat ditambahkan untuk pengoperasian yang disesuaikan. Modul M-2 Common-Mode Input M-2 M-16 cocok untuk digunakan dalam aplikasi di mana konversi sinyal otonom menjadi masalah, dan juga pada aplikasi mid-range standar () Saluran yang diaktifkan dipindai dengan kecepatan maksimum dan Hasil konversi disimpan dalam memori bersama DSP lokal melakukan semua fungsi seperti kalibrasi. Fungsi khusus pengguna dapat ditambahkan untuk pengoperasian yang disesuaikan. TMS320C32 floating point DSP, berjalan pada 60 MHz, memberikan 30 MIPS () Dioptimalkan untuk biaya rendah, memperluas jangkauan FPGA lebih jauh ke aplikasi volume tinggi yang sensitif biaya () set fitur yang ditetapkan oleh Pelanggan, kinerja terdepan di industri, dan rendah Konsumsi daya sangat meningkat kepadatan dan lebih banyak fitur, semua pada biaya yang jauh lebih rendah 150 tertanam 18 x 18 pengganda Nios II, tingkat frekuensi clock StratixInternal hingga 500 MHz dan kinerja khas 250 MHz () Memberikan rata-rata 50 kinerja lebih cepat dan lebih dari 2x logika Kapasitas dari generasi pertama Stratix FPGAs Memberikan bandwidth multiplier 50x lebih tinggi daripada prosesor sinyal digital single-chip dan mandiri Blok DSP memiliki fleksibilitas dan kinerja untuk menerapkan aplikasi arithmetic-intensive yang cepat, seperti pemrosesan gambar, komunikasi nirkabel, militer, siaran, dan Medis 28-nm Stratix V FPGAsDengan blok presisi presisi DSP, Alteras Stratix V FPGA dapat mendukung 8211 secara blok-by-block 8211 v Arious precisions mulai dari 9-bit x 9-bit hingga floating point presisi tunggal (perkalian mantissa) dalam satu blok DSP tunggal () Ini membebaskan Anda dari batasan arsitektur FPGA, yang memungkinkan Anda untuk menggunakan presisi optimal pada setiap tahap DSP. Jalur data Meningkatnya kinerja sistem, mengurangi konsumsi daya, dan mengurangi kendala arsitektur Setiap blok presisi variabel dapat dikonfigurasi pada waktu kompilasi untuk diterapkan: Pengganda 18-bit x 18-bit ganda dalam mode jumlah atau independen Elemen logika hingga 680K (LEs ) 2X lebih besar dari perangkat Alteras Stratix III altera 40-nm memenuhi kebutuhan aplikasi high-end beragam di sejumlah besar pasar seperti komunikasi nirkabel dan kabel, prototip militer, siaran, dan ASIC Kit Pengembangan Kit Pengembangan Stratix DSP untuk Texas Instruments DSP platform pengembangan untuk memungkinkan pengembangan coprocessors FPGA () Fitur papan pengembangan dengan perangkat Stratix EP1S80, dua 12-bit, 125-MHz AD converter, dua Konverter DA 14-bit, 165 MHz, memori flash 64 Mbits, 2 Mbytes dari sinkron SRAM, dan konektor ke papan evaluasi Analog Devices AD Mencakup kartu putri cross-platform yang terhubung langsung ke Texas Instruments performa tinggi TMS320C6000 dan biaya- Platform pengembangan DSP TMS320C5000 yang efisien Menyediakan versi evaluasi perangkat keras dari kekayaan intelektual DSP utama, termasuk kompiler FIR, kompresor impuls impuls tak berujung (IIR), serta Correlator, FFT, Viterbi, dan Reed Solomon Cores Stratix II Suplai portofolio IP FPGAExtensive () Blok DSP menawarkan kinerja yang lebih tinggi dengan multiplier, pipeline, dan mengumpulkan sesuatu yang hilang di sini Menawarkan lebih dari 142 GMACS throughput DSP menggunakan blok DSP Menghadirkan bandwidth blok DSP 4x dari perangkat Stratix 8211 sampai 370 MHz Alat pengembangan DSP dengan akses diperluas ke altera IP Dan dukungan untuk software MathWorks MATLAB 7SimuLink 6 () Mendukung keluarga perangkat Atratix II dan Cyclone II Mendukung Alteras DSP Meg Portofolio IP ACore Meliputi konverter ruang warna UP core dan desain referensi pendeteksian tepi dengan filter dua dimensi untuk desain pengolah video dan gambar IO dan sinyal kecepatan tinggi () Mendukung antarmuka memori eksternal terbaru di sirkuit khusus, termasuk DDR2 SDRAM , Perangkat RLDRAM II, dan QDRII SRAM Membawa fungsionalitas dan manfaat logika yang dapat diprogram untuk aplikasi baru yang memerlukan keamanan desain TriMatrix Memory Stratix EP1S80A DSP development board () Termasuk dengan kit pengembangan DSP Stratix Professional Edition Dua konverter 12-bit, 125-MHz AD Dua 14 -bit, 165-MHz DA converters Menghubungkan alat MATLABSimulink dengan perangkat lunak desain altera Quartus II () Mendukung sepenuhnya Altera DSP IP Mendukung keluarga Stratix, Stratix II, Cyclone, dan Cyclone II Mengaktifkan prototip cepat dengan papan pengembangan DSP Alterathird-party Stratix II Dev . KitDSP development board, Stratix II Edition dengan perangkat Statix ​​II () Menyediakan berbagai IO analog dan digital 16 MB SDR SDRAM 16 MB Flash 1 MB SRAM 32 MB memori flash kompak Perangkat lunak MATLABSimulink evaluasi DSP BuilderLinks alat MATLABSimulink dengan perangkat lunak desain altera Quartus II () Mendukung sepenuhnya Altera DSP IP Mendukung keluarga Stratix, Stratix II, Cyclone, dan Cyclone II Memungkinkan prototip yang cepat dengan papan pengembangan DSP Alterathird Cyclone II FPGAIndustris platform logika program termahal yang dapat diprogram untuk implementasi DSP () Menawarkan hingga 68.416 LEs logika Kepadatan dan 1,1 Mb memori tertanam Menghadirkan pengganda tersandi yang dapat dikonfigurasi untuk aplikasi DSP berbiaya rendah Menyediakan hingga 150 pengganda 18-bit x 18-bit yang beroperasi hingga 250 MHz Mikrokomputer chip tunggal yang dioptimalkan untuk pemrosesan sinyal digital dan kecepatan tinggi lainnya. Aplikasi pengolahan numerik () Kit evaluasi EZ-KIT Lite tersedia untuk ADI ADSP-21160x keluarga SHARC DSP, serta ADSP-2189 M-Series () Ini menyediakan metode biaya-efektif untuk evaluasi awal kedua arsitektur DSP Antarmuka Kit ADSP-21160M EZ-Kit Lite ke alat bantu ADIs VisualDSP Kit ADZ-2189M EZ-KIT Lite terdiri dari Papan DSP yang berdiri sendiri dengan pembuatan kode dan perangkat lunak debug dan memfasilitasi evaluasi keluarga DSP ADSP-218x, serta lingkungan pengembangan VisualDSP, yang mencakup kompiler, assembler, dan linker C. DSP fixed-point 16 bit yang dioptimalkan untuk telekomunikasi dan aplikasi pemrosesan numerik berkecepatan tinggi lainnya () Beroperasi pada 160 MHz dan mampu 160 MIPS DSP kompatibel dengan keluarga ADSP-21xx dengan peningkatan kinerja Dukungan sistem chip on-chip Sistem telepon kepadatan tinggi T1, E1, dan H.100 DSP berperforma tinggi yang mampu memberikan fungsi kontrol MCU dalam satu instruksi yang ditetapkan pada kinerja 300 MHz yang berkelanjutan () Prosesor DSP yang tertanam yang mengintegrasikan dua inti DSP Blackfin yang identik () Memungkinkan kinerja multiprocessing simetris (SMP) 750 MHz dan 1500 MMAC (juta beberapa operasi akumulasi) per inti Setiap inti berisi dua alat pengganda pengganda (MAC), dua ALUs 40-bit, empat ALUs video 8 bit, dan satu shifter barel tunggal Internet Chip Prosesor DSP dengan arsitektur yang mampu melakukan banyak operasi secara paralel () Satu set dari tiga prosesor DSP dalam keluarga TigerSHARC () Prosesor DSP TigerSHARC () Sup statis Arsitektur erscalar yang mendukung pemrosesan titik tetap 1, 9, 16, dan 32-bit Performa tinggi, 600 MHz, 1.67 nsecs tingkat instruksi DSP core 24 Mbits on-chip embedded DRAM yang disusun secara internal di enam bank dengan partisi yang ditentukan pengguna A 16 -bit fixed-point DSP yang dioptimalkan untuk telekomunikasi dan aplikasi pemrosesan numerik kecepatan tinggi lainnya () Sebuah keluarga dengan enam chip mikrokomputer tunggal yang dioptimalkan untuk aplikasi pemrosesan sinyal digital () DSP fixed-point 100 MHz SIMD 32-bit dan floating-point () 1-Mbit dual-porting, onchip SRAM dapat dikonfigurasi dengan benar IEEE 784-884 floating-point compliant 14 DMA controller channel mendukung transfer data antara memori internal dan memori eksternal, periferal eksternal, prosesor host, dan beberapa port SHARC174 Processors, Pada generasi ketiga, menggabungkan inti pengolahan fixed-and floating-point berkinerja tinggi dengan memori canggih dan subsistem pengolahan IO. () Dual-power, single Multiply-Accumulate (MAC), titik 16-bit fixed point DSP yang dirancang khusus untuk desain System-on-Chip (SoC) yang terintegrasi dan sangat terintegrasi () Frekuensi tinggi 8211 sampai 200 MHz 0.13u terburuk Proses kasus Konsumsi daya: Modus aktif - menggunakan kemampuan DSP penuh Mode lambat - kecepatan clock dan konsumsi arus, dibagi secara linier, relatif terhadap mode aktif oleh faktor yang ditentukan pengguna dan mode Stop - arus bocor hanya Kepadatan kode tinggi menggunakan lebar instruksi 16-bit CEVA-X1620 DSPCEVA-X1620 adalah implementasi pertama dari keluarga CEVA-X DSP yang terdiri dari lebar data 16 bit dan dua unit MAC () pasar target CEVA-X1620 meliputi handset seluler 3G dan radio Perangkat Lunak, ponsel cerdas PDA, Video, dan Pemrosesan audio untuk perangkat mobile, gateway VoIP dan modem broadband, dan hiburan rumah (Digital TV, HDTV, PVR, HD-DVD) Dual MAC 16-bit fixed point DSP Kombinasi konsep arsitektur VLIW dan SIMD Tersedia sebagai bagian dari CEVA-Toolbox Pengembangan Perangkat Lunak Envi Ronment () Pengoptimalan pembuatan proyek: Membuat konfigurasi konfigurasi yang dioptimalkan, mensimulasikan dan profil beberapa skenario aplikasi berdasarkan aplikasi pelanggan dan kondisi sistem yang tepat Perpustakaan DSP dan Komunikasi: Fungsi perakitan yang mudah digunakan oleh C-callable, secara signifikan meningkatkan kinerja dan waktu pengembangan aplikasi DSP dan komunikasi. Aplikasi Profiler: Siklus aplikasi C-level yang akurat dan subsistem memori subsistem Sebuah prosesor dengan daya rendah, berkinerja tinggi, dual Multiply-Accumulate (MAC), inti DSP 16 bit, fixed-point () Platform audio terprogram yang terintegrasi: inti DSP Dan subsistem Kisaran luas codec audio Waktu yang singkat ke pasar Risiko rendah () Performa yang kuat: Biaya rendah - 0.5mm2 untuk DSP pada proses 65nm Daya rendah - 0,5 mW untuk stereo MP3 decoder Warisan teknologi yang kuat: Memanfaatkan CEVA-TeakLite yang banyak digunakan Teknologi Audio codec dikerahkan di pasar perangkat seluler dan konsumen utama Solusi sumber tunggal: Mengurangi risiko dan kompleksitas solusi AMC-D24AF 4-RF2 adalah kartu AdvancedMC (AMC) yang sangat terintegrasi dengan dua kanal transceiver RF wideband. Prosesor utama modul22683648482s adalah prosesor sinyal digital inti TCI6638 berbasis KeyStone2268222162 II (DSP) ARM194174 SoC, yang mencakup delapan inti DSP TMS320C66x, serta empat inti ARM Cortex194174-A15 untuk pemrosesan lapisan yang lebih tinggi. Modul ini juga memiliki dua C6678 DSPs, ditambah dengan Xilinx Kintex-7 FPGA yang besar. () AMC-D1F1-1200Sebuah modul AdvancedMC yang menawarkan solusi pemrosesan sinyal DSPFPGA kompak dan berkinerja tinggi untuk sistem sinyal digital HighTCA dan MicroTCA () Texas Instruments TMS320C6455 yang beroperasi pada 1,2 GHz dan FPGA Virtex-4 FX100 dari Xilinx Dioptimalkan untuk aplikasi Yang membutuhkan bandwidth IO sinyal high-end dalam faktor bentuk AMC mid-height kompak, seperti baseband nirkabel, pemrosesan gambar, pertahanan, dan kedirgantaraan Menyediakan kombinasi sumber DSP dan FPGA, dengan tautan cepat dan fleksibel ke data eksternal dan lebih dari 256 MB Memori onboard Kartu AdvancedMC yang sangat terintegrasi berdasarkan So22S3636364 TCI6636 dan TMS320C6678 DSP SoCs ditambah FPGA Xilinx Kintex-7 yang besar dan 4x4 RF. AMC-D24A4-RF4 adalah sistem pengarsipan ARM, DSP dan FPGA yang sangat berkinerja tinggi, yang mencakup empat saluran transceiver RF terpadu, fleksibel, dan wideband. Modul ini ditujukan untuk sistem LTE, LTE Advanced dan 5G yang memerlukan teknologi MIMO dan memungkinkan fungsionalitas baseline nirkabel RF ke Layer 3 yang lengkap untuk diterapkan pada satu kartu AdvancedMC tunggal. Prosesor utama module22683648482s adalah TCI6636 KeyStone II DSPARM SoC. Ini mencakup delapan inti DSP C66x, serta empat inti ARM Cortex2268222162-A15 untuk pemrosesan lapisan lebih tinggi. Modul ini juga memiliki dua TMS320C6678 octal C66x core DSPs. Semua prosesor digabungkan erat melalui antarmuka Hyperlink TI22683648482 dan infrastruktur Ethernet kartu dengan konektivitas backplane Serial RapidIO (SRIO) yang menyediakan konektivitas antar kartu. Ada juga FPGA Kintex-7 yang besar untuk pemrosesan bersama tambahan dan untuk mengelola antarmuka RF FITUR: 1 Texas Instruments TCI6636 SoC DSP 2 Texas Instruments TMS320C6678 SoC DSPs Masing-masing DSP memiliki 8 core - 24 inti DSP dengan total 4 kanal RF, masing-masing Mendukung FDD atau TDD 662MHz - 3.84GHz 20Gbps Gen2 RapidIO ke AMC.4 compliant backplane 3x SFP ke FPGA, hingga 10.3 Gbaud Antarmuka Gigabit Ethernet Penerima GPS terintegrasi Lebar ganda, kartu AMC ukuran penuh. () AMC-2C6678L adalah kartu DSP berkinerja tinggi. Hal ini didukung oleh Texas Instruments SoC TMS320C6678 DSP terbaru. Inti DSP 16 C66x terhubung bersamaan dengan link Hyperlink, PCIe dan SRIO berkecepatan tinggi dan sangat ideal untuk berbagai aplikasi pemrosesan DSP berkinerja tinggi termasuk pemrosesan sensor gambar, telecomms dan kontrol stepper. Selain itu, dapat digunakan untuk akselerasi berbasis DSP terhadap aplikasi suara dan video. Core beroperasi pada 1.25GHz dan memiliki kekuatan gabungan untuk memproses 320 GFLOPS dan 640 GMACS. Papan dilengkapi dengan pustaka pendukung perangkat lunak dan 3L Diamond didukung penuh pada platform ini untuk pengembangan kode multiprosesor tingkat lanjut. CommAgility dapat mendukung kebutuhan Anda jika modifikasi diperlukan untuk membuat produk ini sesuai dengan persyaratan OEM Anda. FITUR: 2 Texas Instruments TMS320C6678 DSP Masing-masing DSP memiliki 8 inti C66x yang beroperasi pada 1,25GHz (total 16 DSP core) PCI Express Gen 3 terhubung ke backplane compliant AMC.1 dengan on-board switch 20gbps Gen2 RapidIO ke AMC.4 compliant backplane. Infrastruktur Gigabit Ethernet penuh Lebar tunggal, kartu AMC berukuran sedang (opsi ukuran penuh tersedia). . () Modul AdvancedMC berdasarkan stasiun basis data TMS320TCI6616 berkinerja tinggi terkini System-on-Chip (SoC) dan prosesor sinyal digital TMS320C6670 (DSP) dari Texas Instruments Incorporated (TI) () Kedua modul ini memanfaatkan kekuatan TI terdepan di industri. Perangkat baru dan menambahkan IO berkecepatan tinggi dan fleksibel untuk memberikan solusi untuk stasiun base nirkabel dan aplikasi berkinerja tinggi Modul ini juga mencakup FPGA Xilinx LX240T Virtex-6TM untuk fleksibilitas IO dan pemrosesan bersama AMC-2C6616 menggabungkan TIs CI6616 SoC yang baru. Base station, dan ditargetkan pada aplikasi base station nirkabel LTE, termasuk pengembangan, uji coba dan penempatan akhir di lapangan AMC-4C6678 adalah kartu DSP berkinerja tinggi. Hal ini didukung oleh Texas Instruments SoC TMS320C6678 DSP terbaru. Core DSP 32 C66x terhubung bersamaan dengan link Hyperlink, PCIe dan SRIO berkecepatan tinggi dan sangat ideal untuk berbagai aplikasi pemrosesan DSP berkinerja tinggi termasuk pemrosesan sensor gambar, telecomms dan kontrol stepper. Core beroperasi pada 1.25GHz dan memiliki kekuatan gabungan untuk memproses 640 GFLOPS dan 1280 GMACS. Papan dilengkapi dengan pustaka pendukung perangkat lunak dan 3L Diamond didukung penuh pada platform ini untuk pengembangan kode multiprosesor tingkat lanjut. FITUR: 4 Texas Instruments TMS320C6678 DSP Masing-masing DSP memiliki 8 core C66x yang beroperasi pada 1.25GHz (total 32 DSP core) PCI Express Gen 3 link ke AMC.1 compliant backplane dengan on-board switch 20gbps Gen2 RapidIO ke AMC.4 compliant backplane. Infrastruktur Gigabit Ethernet penuh Lebar tunggal, kartu AMC full-size. (AMC-K2L-RF2) AMC-K2L-RF2 adalah kartu ARM berkinerja rendah dan berkinerja tinggi berbasis DSP berdasarkan SoC TCI6630K2L SoC yang mencakup dua saluran transceiver RF wideband terintegrasi, semuanya ada di Mezzanine Card Advanced (AMC) Faktor bentuk Ini dirancang untuk mendukung pemrosesan baseband nirkabel dan antarmuka udara MIMO 2x2 dalam sistem uji radio, sel kecil, dan UE untuk sistem LTE dan LTE-Advanced standar atau khusus sampai dengan dan di luar Release 10. () VPX-D16A4-PCIET VPX- D16A4-PCIE adalah kartu grafis berbasis DSP dan berbasis kinerja tinggi yang kokoh di dalam form factor VITA 65, 3U OpenVPX kompak, dengan antarmuka Gen2 PCI Express (PCIe) berkecepatan tinggi. (AMC-2C6678) AMC-2C6678 adalah kartu AMC-2C6678 berperforma tinggi yang berkinerja tinggi dengan 16 DSP core dan sumber daya FPGA. It is powered by the latest Texas Instruments TMS320C6678 DSPs plus a Xilinx Virtex-6 FPGA. It is ideal for a range of high performance DSPFPGA processing appli-cations including telecoms and image processing. An IDT CPS-1848 Gen2 SRIO switch provides a 20Gbps per port Serial RapidIO infrastructure. Now with 1.2GHz DSPs each with 1GB SDRAM. (). CA-AMC-D4F1A single-width AdvancedMC module designed for high-bandwidth, high-performance signal processing, providing DSP and FPGA processing and 10 Gbps Serial RapidIO () A DSP board for math-intensive multichannel telephony applications like Internet voice and fax gateways () Delivers up to 7200 MIPS of digital signal processing power, enough to process (i.e. voice and fax over IP) up to six T1 or E1 lines in real time Can be equipped with a variety of standard WAN and telephony mezzanines, including T1, E1, SCSA, and ATM Can be equipped with up to 72 100-MHz TMS320VC549 DSPs, which are implemented as six mini-PCI mezzanines A high-density DSP telecom CompactPCI board () Rugged, high performance OpenVPX DSP (digital signal processing) engine based on Intel next-generation quad-core processor technology () VPX3-453 3U VPX Virtex-68640D DSPThe VPX3-453 is a high performance, small form factor DSP engine that combines a Xilinx194174 Virtex174-6 FPGA and a Freescale174 Power Architectur e MPC8640D processor. This small form-factor 3U VPX (VITA 4648) card is ideal for SWaP-constrained environments and is designed to support the full -40 85 deg C rugged operating temperature range. The VPX3-453 speeds and simplifies the integration of advanced DSP and image processing into embedded systems designed for demanding Radar Processing, Signal Intelligence, ISR, Image Processing, and Electronic Warfare applications. () DSP-Based Data Acquisition Sub-SystemsA line of multiprocessor DSP boards and modules integrated into complete data acquisition subsystems () Designed for industrial process and control applications Deliver from 6400 MIPS fixed point DSP performance up to 16 GFLOPS floating point performance in a single 6U VMEbus or CompactPCI slot Based on Ixthos CHAMP architecture ProWare PMC-440A rugged FPGA PMC card for the capture, processing, and output of data derived from high-speed sensors such as electro-opticalinfrared (EOIR) and radar systems () Onboard FPGA delivers up to 20 billion operationssec performance for FFT and digital filter DSP functions Can be configured with either of two versions of the Xilinx Virtex-II Pro FPGA: the XC2VP20 (9,280 logic slices88 18x18 multipliers) or the XC2VP40 (19,392 logic slices192 18x18 multipliers) 64-bit, 66 MHz PCI interface with support for PCI-X CHAMP-AV5 6U VMECurtiss-Wright Controls first DSP engine with the new Intel Core i7 processor () Brin gs the floating point performance of the Intel Core i7 architecture to VME64x form factor standard Utilizing a pair of 2.53 GHz dual-core Core i7 processors, the CHAMP-AV5 delivers up to 81 GFLOPS of performance High-bandwidth PCIe architecture, featuring onboard PCIe connections between the processors and the PMCXMC sites CHAMP-XD2M 6U OpenVPX Intel Xeon D DSPThe 6U OpenVPX CHAMP-XD2M rugged Intel Xeon D module is designed for use in high memory capacity, compute-intensive Industrial, Aerospace and Defense applications, enabling developers of High Performance Embedded Computing (HPEC) systems to take full advantage of the unmatched performance of today22683648482s leading-edge Xeon processor D architecture. () CHAMP-AV IVThe third generation of our quad PowerPC DSP boards with the QuadFlow architecture providing high bandwidth connections between four 7447A7448 processors () Quad PowerPC 7447A7448 processors at up to 1.25 GHz Up to 512 MB DDR-250 SDRAM with ECC per processor (2 GB total) and 64 Kbytes L1 and 1 Mbyte (7448) L2 internal caches operating at core processor speed QuadFlow architecture with 3.2 GBs peak on-board throughput PCI v2.2-compliant, 64-bit universal PCI card () A high performance DSP board optimized for high-bandwidth, low-latency digital signal processing applications () A high performance DSP board optimized for high-bandwidth, low-latency digital signal processing applications () A TMS320C6200 DSP design suite that supports TIs eXpressDSP real-time software technology () Bit-true fixed and floating point DSP system design C code generation Integrates with Code Composer Studio for rapid prototyping A new version of SystemView that reduces design time for DSP and wir eless communications systems by providing additional modeling, analysis, and debugging features () Design and simulation ensures that the RF front-end, the AD converter, and the DSP functions will all interact together correctly Includes enhancements to SystemViews analysis and debugging capabilities A designer can trace a signal through an entire system simply by moving a virtual probe to the output of each block of the block diagram during system simulation A system-level design tool for DSP and communications applications () Provides Simulink integration, enhanced filter design tools, and a significant new offering of models for communication applications Enhanced communications library includes TDMA multiplexerdemultiplexer, OFDM modulationdemodulation, Gold Code Generator, Puncture, Depuncture, and QAM detector, mapper, demapper models The RFAnalog and DSP libraries also contain new models A universal DSP development system that allows construction of scalable DSP systems () Syste m comes in a 19-inch, 3U ruggedized enclosure with a single Atlas board The Atlas I board has two 120 MFLOPS floating-point ADSP-21060 processors The Atlas II board has two 480 MFLOPS ADSP-21160 processors Virtuoso 4.1An integrated development environment for real-time embedded systems that includes a four-layer, microkernel-based RTOS that is optimized for DSP and ASIC cores () Requires 2 Kwords to 10 Kwords of memory, and supports DSPs and RISC cores from Analog Devices, ARM, Infineon, and Texas Instruments Tool suite includes a project manager, a kernel-optimizing system generation tool, and graphical analysis and debugging tools for DSPs Scheduling options include round robin with prioritization, time-slicing, and prioritized, preemptive scheduling A universal digital signal computer () CompactPCI form factor Hosted by a Pentium running Windows NT Target system consists of one or more DSP boards with 2 ADSP-21060 (SHARC) each A TMS320C620x fixed point-based universal digital signal computer () The MSC8156 Evaluation Module (MSC8156EVM) is a cost-effective tool intended for engineers evaluating the MSC815x and MSC825x family of Freescale Digital Signal Processors (DSPs) () The MSC815x and MSC825x family of DSPs are highly integrated DSP processors that contain one, two, four or six StarCore SC3850 cores The family supports raw programmable DSP performance values ranging from 8 GMACs to 48 GMACs, with each DSP core running at 1 GHz These devices target high-bandwidth, highly computational DSP applications such as 3GPP, TD-SCDMA, 3G-LTE and WiMAX base station applications as well as aerospace and defense, medical imaging, video, voice and test and measurement applications MSC8256The MSC8256 is based on the industrys highest performance DSP core, built on StarCore technology, and designed for the advanced processing requirements and capabilities of todays high-performance, high-end industrial applications for the medical imaging, aerospace, defense and advanced test and measurement markets () It delivers industry-leading performance and power savings, leveraging 45 nm process technology in a highly integrated SoC to provide performance equivalent to a 6 GHz, single-core device. The MSC8256 will help equipment manufacturers create end products and services that integrate more functionality in a smaller hardware footprint The MSC8256 DSP delivers a high level of performance and integration, combining six new and enhanced, fully programmable SC3850 cores, each running at up to 1 GHz. The SC3850 DSP core has been independently assessed to enable 40 percent more processing capability per MHz than the nearest DSP competition A high-performance internal RISC-based QUICC Engine subsystem supports multiple networking protocols to guarantee reliable data transport over packet networks while significantly offloading processing from the DSP cores MSC8156The MSC8156 is based on the industrys highest performance DSP core, built on StarCore technology, with added performance from a Multi-Accelerator Platform Engine (MAPLE-B) for Fast Fourier Transforms (FFT), Inverse Fast Fourier Transforms (iFFT), Discrete Fourier Transforms (DFT), Inverse Discrete Fourier Transforms (iDFT) and Turbo and Viterbi decoding () The MSC8156 supports the advanced processing requirements and capabilities of todays high-performance medical, aerospace and defense and advanced test and measurement markets It delivers industry-leading performance and power savings, leveraging 45 nm process technology in a highly integrated SoC to provide performance equivalent to a 6 GHz, single-core device The MSC8156 will help equipment manufacturers create end products and services that integrate more functionality in a smaller hardware footprint A device that allows the host debug system to communicate with a Motorola DSP target system through the JTAGOnCE connector () Commands entered from the host are parsed, and a series of low level command packets are sent to the Command Converter, which, in turn, translates low level command packets into serial sequences that are transferred to the target DSP via the OnCE port The Command Converter Kit includes a Command Converter, a software development tools CD, and Command Converter product documentation Command Converters include Ethernet, PCI, Parallel, and Universal (ISASBUS). . Core SC140-based DSP with a 300 MHz DSP core Four ALUs provide 1200 DSP MIPS, 150 MHz programmable network protocol engine, 512 Kbytes of onchip SRAM, 100 MHz 64-bit or 32-bit PowerPC bus interface, and a programmable memory controller On-chip 300 MHz enhanced filter compressor and centralized DMA engine High-level application-enabling software option for fast time to market () Framework level software option adds flexibility to add algorithms and connections Board and library level software option for ultimate control Latest generation DSPs for low cost and power consumption per channel DSP56F801A DSP core based on a Harvard-style architecture consisting of three execution units operating in parallel, allowing as many as six operations per instruction cycle () Microprocessor-style programming model and optimized instruction set allow generation of efficient, compact code for both DSP-style and MCU-style applications Instruction set is highly efficient for C Compilers to enable rapid d evelopment of optimized control applications Integrated program Flash and data Flash memories A 24-bit multichannel audio decoder DSP optimized for cost-sensative consumer audio applications () Supports all of the popular multichannel audio decoding formats, including Dolby Digital Surround, Moving Picture Experts Group Standard 2 (MPEG2), and Digital Theater Systems (DTS), in a single device with sufficient MIPS resources for customer defined post-processing features such as bass management, 3D virtual surround, Lucasfilm THX5.1, soundfield processing, and advanced equalization Uses the single-instruction-per-clock-cycle DSP56300 core, while retaining code compatibility with the DSP56000 core family Contains audio-specific peripherals and an onboard software surround decoder, and is offered in 100 MHzMIPS and 120 MHzMIPS versions at 3.3V . A DSP core based on a Harvard-style architecture consisting of three execution units operating in parallel, allowing as many as six operations per instruction cycle () Microprocessor-style programming model and optimized instruction set allow generation of efficient, compact code for both DSP-style and MCU-style applications Instruction set is highly efficient for C Compilers to enable rapid development of optimized control applications Integrated program Flash and data Flash memories A StarCore-based DSP with four 300 MHz Star () Core SC140 DSP extended cores 16 ALUs onchip deliver 4,800 MMACS, 12 G RISC MIPS (Performance equivalent to a 1.2 GHz SC140 core) Four 300 MHz EFCOPs P2020-MSC8156 AdvancedMCThe Freescale P2020-MSC8156 AdvancedMC (AMC) reference design is a multi-standard baseband development platform for the next generation of wireless standards such as LTE, WiMAX, WCDMA and TD-SCDMA. () A single-chip RISC microprocessor () 32-bit RISC-type SuperH RISC engine architecture CPU with digital signal processing (DSP) extension Cache memory, on-chip XY memory, and memory management unit (MMU), as well as peripheral functions required for system configuration Includes data protection, virtual memory, and other functions provided by incorporating an MMU into a SuperH Series microprocessor (SH-1 or SH-2) USB-connected Software-Defined Digital Radio system () Ready-to-Go SystemA ready-for-use low-cost system including USB-connected programmable FPGA and DSP hardware () Includes USB-connected FPGADSP hardware of the users choice, USB cable, IO cables to interface to peripherals, main power supply unit, and CD containing software tools, examples, and documentation Connects to PCs using high-speed USB Allows users to download FPGA designs, then exchange data between the FPGA and PC at speeds up to 40 Mbps HERON DSP SystemsHERON high-performance modular signal processing systems for PCI-based, USB connected, and Embedded use are programmable and reconfigurable, using common APIs to provide compatibility and complete flexibility () Choose one or combine any number of our off-the-shelf modules Modules with Xilinx Virtex FPGA (with external memory options plus digital and analog IO choices) and TI 8216C6000 DSP Mount selected modules on a HERON module carrier which provides real-time data connections with 400 Mbps possible in each direction simultaneously HERON-IO2A FPGA module with Virtex II 1M gates plus two channels of 12-bit 125 MHz AD and two channels of 14-bit 125 MHz DA () Analog serial bandwidth of 500 MHz in and 145 MHz out When fitted to a HERON module carrier, can have its FPGA 8220program8221 downloaded from the PC over the HERON serial bus, allowing users to program and reprogram the FPGA IP available for commonly used functions HERON-FPGA12HERON module with Virtex-4FX12 FPGA plus DDR SDRAM, flash memory, and 60 bits digital IO () HERON-FPGA3A FPGA m odule with digital IO () PlugPlay PCI 2.1 33MHz32-bit slave, MasterSlave (optional) support Up to 400k gates in Spartan-3 family FPGAs Spartan-3 FPGAs system clock rate up to 320 MHz A configurable and scalable RTOS architecture for convergent processing () Uses two real-time kernels: RTXCss, and single-stack, thread-based kernel, and RTXCms, a multi-stack task-based kernel Meets the requirements of real-time, control-processing, or Digital Signal Processing (DSP) applications Supported processors: ARM 77T, 99T, Motorola DSP56F800, Motorola DSP65300600, Motorola ColdFire family, Motorola PowerPC, Motorola StarCore MSC8101, and Texas Instruments TMS320C54x, TMS320C55x . A real-time multi-tasking kernel (RTXC) for Motorolas DSP 56303307309EVM digital signal processors () Motorolas Suite56 Software Development Tools include a processor simulator, C compiler, assembler and linker, and a hardware debugger This suite of tools and RTXC form a new embedded development environment Features include: (1) small code footprint of about 1,500 to 4,500 words (2) full source code and no run-time royalties (3) support of nested interrupts (4) extensive interrupt handling models and examples (5) macros to simplify the creation of interrupt service routines (6) support for mixed assembly language and C programming and (7) a GUI-driven system generation utility that allows specification and generation of RTXC system objects without having to know the internals of the kernel objects A software development kit based on Texas Instruments TMS320DSC2 DSP () Provides developers access to the complete DSPLinux simulation and hardware environment through DevelopOnline DSPLinux is optimized for multimedia applications in which DSPs offer high processing power with low battery consumption Focused on dual-core ARMDSP architectures, with the Linux kernel residing on the ARM processor to control the operation of the DSP From Microchips PIC24 16-bit MCUs through the dsPIC 30 to the dsPIC 33, DSPnano has seamless support including CC integrated development environment (IDE), a DSP RTOS, and DSP libraries () CC IDE based on Eclipse with a highly productive user interface DSPnano operating system level simulator Seamless integration with Microchips MPLAB IDE for instruction-level simulation, compiling, and debugging using ICD2 or REAL ICE A signal processing operating system intended for small signal processors and small DSP networks () Enables adding real-time signal processing capabilities () PCI Mezzanine Card (PMC) is a widely used industry standard for small-sized mezzanine modules A high-performance DSP processor and graphical application development in LabVIEW Suitable for real-time processing applications SI-C6713DSP-PC104pAn embedded PC104-Plus DSP board () Texas Instruments TMS320C6713 DSP at 300 MHz Up to 256 MB of SDRAM using conventional 144-pin SODIMMs 2.25 W typical power consumption PCI, CompactPCI, PMC, PC104-Plus form factors () SI-C6713DSP-PCIDSP board for data acqusition, measurement, and digital control applications () SI-C33DSP-cPCIReal time software accelerator board for LabVIEW based on Texas Instruments TMS320VC33 family of floating point DSPs () SI-C6713DSP-(PCI)Real time software accelerator board for LabVIEW and Visual Basic based on TIs TMS320C6x family of floating point DSPs () DSP board for PC104-Plus () 1,800 MFLOP peak performance with C6713, 1,200 MFLOPs with C6711, 32 bit floatingfixed point precision Up to 256 MB SDRAM, using conventional PC133 SDRAM SODIMM format Full 32 bit bi-directional PCI initiated bus mastering, with 132 MBps peak transfer rate A board providing high-density DSP resources and a high level of general purpose, programmable MIPS per square mm () Compliant with 64xx IP video, transcoding, wireless, and voice algorithms Includes WinXP and Linux drivers and C code API, full DSP software, DSP with real-time examples Up to eight C6414, C6415, or C6416 DSPs A DSP board that combines a 32-bit floating-point TMS320C44 DSP with up to 512K x 32 SRAM and high-speed, multiple IO paths for connectivity to analog IO or other peripheral PC104 boards or other C4x processors () Four comm -port connectors, 32-bit 8220GlobalBus8221, and EPROM or Flash EEPROM site Supported by DSPower and Hypersignal software . SigC5502Dual DSP 24-bit audio board () Dual 300 MHz C5502 processor sites Stereo 24-bit 96 kHz audio IO, 100 dB SNR typical Single-ended and differential-ended audio connector options SigC67xx-SODIMMA quad processor DSP module () Up to four Texas Instruments C67xx processors Up to 5.4 GFLOPS 32-bit floating-point performance 4M x 32 off chip SDRAM and 64k x 32 zero-wait-state onchip SRAM per processor 300 to 480 MIPS Multiprocessor DSP Modules () 384768k x 16 SRAM Three 100 to 160 MHz C549, C5402, C5409, or C5416 cores, in three 144-pin GGU packages, each with separate 2.5v (or 1.8v) core and 3.3v peripheral voltages 128k x 16 or 256k x 16 zero-wait-state external SRAM per core A PTMC card that condenses the Texas InstrumentsTelogy Phase III High-Density VoIP reference design 8211 including DSP farm and network processor 8211 into PMC form factor () IP telephony applications include echo can farm, transcoding server, media gateway, complete soft switch solution using onboard host proce ssor, Asterisk PBX, and more Telogy software compliant OC-3 channel capacity A modular DSP resource board () Provides up to 1920 MIPS in a single PC104 form factor Accepts off-the-shelf processor modules with Texas Instruments C54xx DSPs and 16-bit audio and speech IO modules, and custom modules, for example H.110 or MVIP subset High-speed host interface Signal Ranger Mk3 is a DSP board featuring a TMS320C6424 DSP running at 590 MHz and a XC3S400 FPGA (Signal Ranger Mk3 Pro. version only) () This DSP board provides 6 analog IOs (96 kHz24-bit) It has been designed for pro-audio and high-performance control applications Communication interfaces include a high-bandwidth USB 2 interface as well as an Ethernet communication interface that allows the remote control of the DSP board over the web (an IP Stack DSP firmware is included) Signal Ranger MK2DSP: TMS320C5502 16-bit fixed point DSP, running at 300 MHz, with 32 Kwords of on-chip RAM () TIGER DSP is a digital signal processing board featuring a Xilinx Virtex 6 FPGA, data memory, and various host connections. () A 6U VMEbus board with a VME64 masterslave interface () Two processors available: single, dual, or quad 1600 MIPS, 200 MHz TMS320C6201B DSPs or single, dual, or quad 1 GFLOPS, 167 MHz MS320C6701 DSPs Up to 2 Mbytes of SBSRAM and 64 Mbytes of SDRAM Hurricane, a single chip PCI bridge optimized for DSP systems CompactPCI DSP system supports TMS320C6701 architecture () Dual or quad processor with distributed shared memory architecture provided by the Hurricane PCI-to-DSP bridge chip SBSRAM distributed shared memory Additional IO capabilities include IP Modules, PMC modules, DSP-Link 3, custom IO, and Spectrum-developed PEM modules which provide 400 Mbytessec of IO bandwidth per DSP Single-channel digital radio receiver module with software demodulation libraries () This surveillance solution combines an AD converter, digital down converter, TMS320C44 DSP processor, and a DA converter on a single-wide TIM-40 module Designed to work with Spectrums LeMans VXI product . InglistonA quad PCI DSP system based on the 250 MHz, fixed-point C6202 processor () A high-performance, programmable digital interface that connects Spectrums 8216C6000-based DSP boards to custom and standard IO systems () Provides up to 100 Mbitssec of IO bandwidth to each 8216C6000 DSP Total data throughput of 200 Mbitssec Programmed to interface to virtually any type of digital IO devices, including digital cameras, motor controllers, and as standard and custom parallel interfaces Single-channel digital radio receiver module with software demodulation libraries () This surveillance solution combines an AD converter, digital down converter, TMS320C44 DSP processor, and a DA converter on a single-wide TIM-40 module Designed to work with Spectrums LeMans VXI product . Multiplatform digital radio receiver consists of MDC44DDC 50 MHz TIM module (1 MByte or 4 MBytes), MD70MAI 70-Msamplesec AD converter TIM module, 50 KHz analog daughter module and DDR cable kit () Scaleable solution maintains interoperability with VXI, ISA, PCI and VME platforms Incoming signals from an antenna system digitized by TIM-40 based AD converter and forward via 1.4 Gbits G-Link network to one or more TIM-40 based receiverDSP blocks for demodulation and analysis Easily daisy-chained . An octal VMEbus processing engine () Eight 250300 MHz 8216C6203 fixed-point processors Peak performance of 16,00019,200 MIPS Solano-based architectures provides 200 Mbytessec full-duplex links between processors PRO-4600A 3U CompactPCI processing engine that uses a combination of FPGA, DSP, and GPP to support black-side signal processing for software defined radio (SDR) applications () 3U CompactPCI form factor Available in conduction-cooled and air-cooled versions Rugged conduction-cooled carrier versions follow the IEEE 1101.2 specification and operate with ANSI VITA 20 compliant XMC modules Barcelona-HSA 6U, hot-swap CompactPCI board combining DSP multiprocessor hardware and software tools for designing high availability systems () A DSP-based digital radio PMC mezzanine for use with Spectrums TMS320C6x-based carrier products () The PMC-MAI is a 65 M samplessec analog input PMC, the PEM-2PDC is a dual-programmable down converter module, and the PEM-4PDC is a quad-programmable down c onverter module Both PEM modules are based on Spectrums Processor Expansion Module (PEM) open specification For commercial and military signals intelligence or surveillance applications ePMC-8310A Texas Instruments TMS320C6416C6415 DSP-based multiprocessing engine for communications applications () Choice of one or two 600 MHz TMS320C6416 or TMS320C6415 fixed-point DSP processors with a peak performance of 4800 MIPS per processor Integrated Viterbi and Turbo co-processors Eight dedicated high-speed data paths to the DSPs, connected through a programmable router for dataflow reconfigurability AcceleraA graphically-driven, modular, system-level software tool, designed to speed the development of multiprocessor DSP applications for Spectrums multi-DSP TMS320C620203 products () A PCIe-based carrier card with dual XMC sites () Can be used within a PC-based system to interface to Spectrum FPGA, DSP, and IO processing engines Flexible data routing architecture, allowing numerous combinations of FPGA, DSP and GPP signal processing devices Supports applications requiring high-speed, low latency, deterministic data paths The LeMans 840 MFLOP octal TMS320C4x VXIbus master board can host up to six single-wide or four double-wide C4044 DSP modules and TIM-40 form factor SRAM, DRAM, EDRAM, or IO modules () Supports VXI shared memory, VXI masterslave modes, and 80 Mbytessec data transfers via the HP local bus Features JTAG input and output connectors, a test bus controller, and device driver support via VISA or SICL . An expansion module that connects high-speed digital signal processors (DSPs) to the Internet () Allows a sophisticated collection of DSPs to connect to EthernetInternet directly and without involvement of a host computer Uses Texas Instruments 225-MHz TMS320C6713 DSP, based on TIs high-performance, advanced VelociTI VLIW architecture NetSilicon Net-50 ARM CPU ICE105: Embedded IO Programmable SystemSUNDANCE is a worldwide supplier and manufacturer of industrial-class PCIe104 digital signal processing (DSP), configurable small form factors and COTS embedded systems. The ICE105 is a rugged system built around a complete range of PCIe104 small form factor, stackable IO-configurable and programmable solutions. () A library of floating-point DSP vectors and functions () Broad range of callable functions significantly reduces the development time of many DSP applications targeting Texas Instruments (TI) TMS320 DSP-based platforms Hand-coded and optimized functions Includes a data conversion unit that facilitates the conversion of fixed-point and integer formats into floating-point units, as well as the conversion of floating-point units into integer formats A platform for telecom, image processing, medical, and industrial systems () A CompactPCI, multi-DSP system () Four C6416, 600-MHz DSPs, with 32 MB of private SDRAM memory for each DSP Up to 800 MBps IO bandwidth per DSP Optional shared memory interface for each DSP A DSP TIM-40 mezzanine that incorporates four 60 MHz TMS320C44 DSPs, and can be used to provide up to 16 DSPs on a VMEbus carrier board () Configured with either 512 Kbytes or 2 Mbytes of SRAM per processor Memory is divided between the processors local and global buses, ensurin g optimal performance from the C44s modified Harvard architecture . SMT7005Four C6201 200MHz DSPs 16MB SDRAM 512KB SBSRAM of private memory for each DSP Up to 800Mbytess IO bandwidth per DSP Optional shared memory interface for each DSP () SMT7006Four C6701 167MHz DSPs () 16MB SDRAM 512KB SBSRAM of private memory for each DSP Over 800Mbytess IO bandwidth per DSP using Sundance Digital Bus and Datapipe Links Optional shared memory interface for each DSP Direct connection to C6000 DSP systems () High accuracy signal source through stringent design criteria communications, base stations and Zero-IF subsystems Wireless local loop (WLL) Local Multipoint Distribution Service (LMDS) A TIM mezzanine that hosts one or two TMS320C6x DSPs () Up to 32 Mbytes of onboard memory Enables a truly distributed DSP processing system The modules can be fitted to a VXI carrier board, giving performance from 1 to 8 GFLOPS when using the TMS320C6701 DSP SMT387Integrated DSP, memory, flash, and storage solution () Includes the latest generation Serial ATA controller, a 600 M Hz DSP, and Virtex-II Pro Works in an array of modules as a slave or host Can run standalone and use the on-module flash for booting and control of the disk array SMT417Conduction cooled PMCXMC card with 2 TI DSP at 1 GHz each and a Xilinx XC2VP50 FPGA and much memory () Combining a Texas Instruments TMS320DM642 DSP-based digital media processor at 720 MHz and a Xilinx Virtex-4 FX-60 FPGA, the SMT339 packs huge compute power into a small development board () Software support includes TIs Code Composer Studio Integrated Development Environment (IDE) and 3Ls Diamond FPGA Interfaces include serial ports or the Rocket Serial Link Used with a TIM carrier such as the SMT130 for PCI-104 or standalone, designers can be up and running quickly . SMT130Onboard XDS-510 compatible JTAG Master () Global bus bandwidth in excess of 100 MBps Host interface via ComPort in excess of 10 Mbps Can support multi-DSP and FPGA resources A media processing solution offering simultaneous support for Triple Play convergence voice, video, and data (faxmodem), all running on a single DSP () Suitable for equipment manufacturers who develop media gateways, CTI products, and other Media over Packet (MoP) applications Includes the SurfUP Open DSP Framework that enables integration of user-defined algorithms into the DSP, based on simple and intuitive APIs that interface with Surfs DSP software Quick integration for reduced time-to-market SurfUPDSP software components comprised of a media processing solution offering simultaneous support for Triple Play convergence (voice, video, and data (faxmodem)) all running simultaneously on a single DSP () Equipment manufacturers who develop media gateways, CTI products, and other Media-over-Packet (MoP) applica tions can integrate a specific media type into their DSP software framework and gain from Surfs robust and field-hardened enabling technologies Powered by an easy-to-use and layered API, the SurfUP DSP software components are ANSI-C compliant (with minimal assembler code for optimization) for cross platformcompiler support Field-hardened DSP software components optimized to run specifically on TIs C64xx DSP generation Fully-integrated RoHS-compliant PMCPTMC DSP resource board providing multimedia processing capabilities: voice, video, and data simultaneously () PMCPTMC form-factor DSP farm, pre-integrated with leading CompactPCI and AdvancedTCA chassis Carrierenterprise-grade, field-proven, and cost effective solution saving resources and reducing RD efforts Complete media processing package for audio, video and data (fax and modem) SurfRiderAMC-EVMComprehensive application development environment () Enables telecom applications developers to handle different DSPs Stand-alone desktop u nit simulating AdvancedTCA and MicroTCA chassis for resource-efficient telecom development environment Full DSP control and monitoring over GbE connection for reduced application development and testing time SurfRiderAMCA RoHS-compliant AdvancedMC DSP resource board, preintegrated with AdvancedTCA and MicroTCA chassis () Provides flexible yet heavy-duty multimedia processing capabilities Complete media processing package for audio, video, modem, and fax Flexible and scalable modular design supporting up to 8 TI C64x DSPs onboard SurfExpressPCIeFully integrated RoHS compliant PCIe DSP resource board providing multimedia processing capability: voice, video. and data () Graph-based Physical Synthesis fast timing closure and a push-button performance boost of up to 20 percent () RTL-based Verification Technology offers the fastest method of finding functional errors in a design thanks to simulator-like visibility into a live, running FPGA with real-world stimulus Automatic Handling of DSP functions infers DSP functions from RTL and maps into vendors DSP hardware (such as MAC) ASIC design-style support built-in gated clock conversion and a DesignWare compatible library enables ASIC code to be implemented into an FPGA without modification SPW Hardware Design System (HDS)Fastest path from innovation into implementation for digital signal processing systems, applying a model-based design approach () At its core is the C Data Flow (CDF) modeling paradigm, which enables the most efficient description of digital signal processing systems which may be implemented in dedicated digital hardware or embedded software SPW Hardware Design System (HDS) is a key component in the SPW product family It accelerates the hardware design, verification, and analysis of complex, algorithm intensive Digital Signal Processing (DSP) systems Unique Synplify DSP synthesis engine 8211 Automatically creates optimized algorithm RTL architectures from your DSP model () Powerful DSP synthesis optimizations 8211 Exploration of speedareadevice technology trade-offs without changing your DSP model Comprehensive DSP library 8211 With full multi-rate support and advanced fixed-point quantization analysis M-Control feature 8211 Enables use of M-language for concise expression of complex state machine and control logic functionality An application processor for 2.5 and 3G wireless devices () Dual core architecture optimized for efficient operating system and multimedia code execution TMS320C55x DSP provides superior multimedia performance while delivering the lowest system-level power consumption TI-enhanced ARM 925 core with an added LCD frame buffer to run co mmand and control functions and user interface applications StarterWareFree software enables quick and simple programming of TI embedded processors () user-friendly, production-ready software for Sitara2268222162 32-bit ARM194174 microprocessor (MPU), C60002268222162 digital signal processor (DSP) and DSP ARM developers provides application developers with a flexible starting point that does not require the use of an operating system allows for easy migration to other TI embedded devices A client-side telephony DSP system () Provides 14 eXpressDSP-compliant algorithms on one chip, including data, telephony, and voice algorithms For PSTN-connected products Provides an open DSPBIOS real-time kernel software framework with a complete telephony algorithm library, on-chip memory and peripherals A fixed-point, 16-bit DSP dual-core solution () Code Composer (version 3.0) includes a DSP software simulator for Texas Instruments DSPs, including the C6x () Mimics the actual execution of DSP code without the presence of a DSP chip Code Composer is an IDE that allows designers to edit, build, manage projects, debug and profile from a single application Users can: (1) compile in the background (2) analyze signals graphically (3) perform file IO (4) debug multiple processors and (5) customize the IDE via GEL A DSP family targeted toward appliances, industrial products, consumer products, automotive products, and office products () Up to 40 MIPS of processing power from the processing core Onchip Flash or ROM Dedicated peripherals, such as pulse-width modulation, ultra-fast AD converters, and CAN modules Real-time software technology that simplifies and streamlines the DSP product development process, reducing product development time () Comprised of the TMS320 DSP Algorithm Standard, a single, standard set of coding conventions and application programming interfaces (APIs) for algorithm creators to wrap the algorithm for system-ready use Includes the Code Composer Studio integrat ed development environment (IDE) Includes DSPBIOS, a scalable, real-time kernel and a growing base of TI DSP-based software modules from third parties that can be easily integrated into systems by OEMs Texas Instruments Incorporated is offering developers the industry22683648482s highest performing, scalable and flexible multicore solutions based on its TMS320C66x digital signal processor (DSP) generation. () Fixed- and floating-point capabilities Highly suited for audio infrastructure products as well as vibration and acoustic analyzers Excellent fit for high precision motion control and high channel count real-time process control system An integrated Internet audio chip () Dual Multiply and Accumulate Chip (MAC) on a DSP Embedded Universal Serial Bus (USB) capabilities Supports Secure Digital (SD), Memory Stick, Compact Flash, Smart Media, and Multimedia Card (MMC) TMS320C6472 Multicore DSPSix high speed C64X DSP cores running at 500MHz, 625MHz, 700MHz, and fully backward compatible with other C64X DSP cores () Highest performance DSP from TI with up to 4.2 GHz33600 MMACs and 4.8 MB on-chip L1L2 RAM Offers best power efficiency in the industry with 3GHz performance at 0.15mWMIPS Optimized DSP architecture maximizes subsystem performance on a chip. One of the advantages of this architecture is that in addition to dedicated L1 and L2 memory to each core, the C6472 features 768KB shared L2 programdata memory and a shared memory controller to facilitate high efficient and flexible inter DSP core communications An integrated development environment () Supports C55x and C64x DSPs Includes Visual Code Generation productivity tools, the C6000 Profile Based Compiler, and C5000 Visual Linker Project manager handles thousands of files and supports external make file capabilities to enable working across both PC and Unix Floating-point Digital Signal Processors (DSPs) () Advanced Very Long Instruction Word (VLIW) C67x DSP core L1L2 memory architecture Enhanced Direct Memory Access (EDMA) controller with 16 independent channels A digital still camera chip () TMS320C5000 DSP and ARM7TDMI RISC processor 80 MHz, 32-bit-wide SDRAM interface Programmable CCD controller supports CCDs up to 4M pixels (2K x 2K) Automatically converts ANSI-standard C programs produced by The MathWorks Simulink, DSP Blockset, and Real-Time Workshop algorithm prototyping tools into executable DSP programs () Intuitive block diagram editor models complex systems by selecting the connecting functional elements from the Simulink and DSP Blockset libraries Real-Time Workshop converts Simulink and DSP Blockset block diagram representations into C programs, which are converted into a SPOX program and compiled for the target DSP . A fully programmable DSP-based chip designed specifically for the consumer digital multimedia market () Specifically designed for multimedia applications such as digital video camcorders, PDAs, and other portable imaging and video products Can be used as a stand alone media processor or can seamlessly interface to an external CPU as a slave processor Supports multiple applications and file formats including MPEG4, JPEG, MPEG1, M-JPEG, H.263, mp3, AAC and QuickTime Multi-channel analog interfaces with a user-programmable Spartan-IIE or Virtex-II FPGA, providing developers with the means to implement FPGA-based digital signal processing solutions () Can be used as stand-alone devices with the user-programmable FPGA responsible for supporting all signal processing functionality, or as daughtercards to micro-line DSPFPGA boards A variety of multi-channel ADA configurations are supported: 2-channel 14-bit ADA with ADC sample rates up to 65 MSps 4-channel 16-bit ADA with ADC sample rates up to 2.5 MSps 12-channel ADA with ADC sample rates up to 250 KSps If the capabilities of a Texas Instruments TMS320C6000 DSP processor are required, an ORS-11x board can be fitted as a daughtercard to a TMS320C6000-based micro-line embedded DSPFPGA board ultra-compactThe ultra-compact UC1394a-1 and UC1394a-3 multi-chip modules provide Texas Instruments TMS320C5000 DSP, Spartan-II or Spartan-3 FPGA, and ready-to-use IEEE1394a FireWire communication capabilities in tiny 30 mm x 36 mm surface-mount PLCC packages () They are suitable as user-programmable DSPFPGA resources or as FireWire connectivity devices The UC1394a-1 incorporates a TMS320C5509 integer DSP, a 50 kGate Spartan-II FPGA, 8 MB of SDRAM In addition to the IO capabilities of the UC1394a-3, the UC1394a-1 provides external access to USB and four AD inputs provided by the TMS320C5509 DSP processor C32CPUA DSP resource board with a TMS320C32 DSP processor and SRAM, FLASH ROM, and the micro-line bus interface () Used as a modular co mponent in the micro-line DSP product family, which allows DSP processor, data acquisition, and IEEE 1394 (FireWire) communications modules to be combined and used together for industrial embedded DSP applications 405060 MHz TMS320C32 32-bit Floating Point DSP Processor Up to 2 Mbytes of zero-wait-state RAM or Double Low Power RAM A family of low-cost embedded DSP board configurations () TMS320C6000 DSP processor 400 Mbitsec IEEE 1394 (FireWire) communications Open architecture design with off-the-shelf and OEM data acquisition and IO options The micro-line series of embedded DSPFPGA boards provides embedded systems developers with a tightly integrated suite of programmable DSP, FPGA, and IO resources in small, stand-alone capable board formats () C6713Compact Features: 300 MHz TMS320C6713 floating-point DSP Spartan 6 (LX45, LX75, LX100 or LX150) or Virtex-II (250-kGate 500kGate, or 1MGate) FPGA up to 160 configurable digital IO pins Up to 128 MB SDRAM 8 MB fl ash ROM for DSP and FPGA boot code, as well as non-voltatile parameterdata storage Onboard 400 Mbps IEEE1394a FireWire interface RS-232 interface External access to TMS320C6713 DSP IO interfaces: 32-bit EMIF, XF01 pins, Timer inputoutput pins, McASP and McBSP ports, I2C, and HPI 120 mm x 67 mm footprintISO9001:2000 accredited production and CE certification C6713CPU Features: 300 MHz TMS320C6713 floating-point DSP 400K gate or 1M gate Spartan-3 FPGA up to 96 configurable digital IO pins 64 MB SDRAM 2 MB fl ash ROM for DSP and FPGA boot code, as well as non-voltatile parameterdata storage RS-232 interface External access to TMS320C6713 DSP IO interfaces: 32-bit EMIF, XF01 pins, Timer inputoutput pins, McASP and McBSP ports, I2C, and HPI 98 mm x 67 mm footprint ISO9001:2000 accredited production and CE certification . The micro-line series of embedded DSPFPGA boards provides embedded systems developers with a tightly integrated suite of programmable DSP, FPGA, and IO resources in small, stand-alone capable board formats. () C6412Compact Features: 720 MHz TMS320C6412 integer DSP 1M gate or 4M gate Spartan-3 FPGA up to 211 configurable IO pins Up to 128 MB SDRAM Up to 32 MB fl ash ROM for DSP and FPGA boot code, as well as non-voltatile parameterdata storage Two independent IEEE1394a FireWire interfaces for streaming data inout simultaneously 10100BASE-Tx Ethernet interface USB 2.0 and RS-232 interfaces External access to DSP Processor IO interfaces: 64-bit EMIF, XF01 pins, Timer inputoutput pins, McBSP ports, I2C, and 16-32-bit HPI 120 mm x 72 mm footprint ISO9001:2000 accredited production and CE certification C641xCPU Features: 400 MHz TMS320C6410, 500MHz TMS320C6413 or 500 MHz TMS320C6418 integer DSP 500K gate, 1.2M gate, or 1.6M gate density Xilinx Spartan8482-3E FPGA: up to 98 configurable digital IO pins Up to 64 MB SDRAM 8 MB fl ash ROM for DSP and FPGA boot code, as well as non-voltatile parameterdata storage RS-232 interface External access to DSP Procesor IO interfaces: 32-bit EMIF, XF01 pins, Timer inputoutput pins, McASP and McBSP ports, I2C, and HPI 98 mm x 67 mm footprint ISO9001:2000 accredited production and CE certification . XpressDSP-compliant TCPIP protocol stack with integrated DMA support () Easy-to-use software package that enables Ethernet and Internet communications on a wide variety of TI DSP hardware platforms: Commercial off-the-shelf hardware (micro-line embedded DSP boards) Texas Instruments development starter kits custom-designed hardware incorporating TI DSPs High communication efficiency and throughput Graphical development tools compliant with applicable Internet standards micro-line C671xProvides embedded systems developers with a tightly integrated suite of programmable DSP, FPGA, and IO resources in small, stand-alone capable board formats () Target high-performance floating-point DSP applications, using the powerful Texas Instruments TMS320C6713 DSP Incorporates up to 64 MB SDRAM, 8 MB boot program flash ROM, and an onboard, high-density 250 kGate, 500 kGate, or 1 MGate Virtex-II FPGA (optionally programmable) The FPGA greatly expands processing as well as hardware interfacing possibil ities A DSP board with onboard FPGA () Texas Instruments TMS320C6713 floating-point DSP processor at 225 MHz (up to 1800 MIPS or 1350 MFLOPS) Virtex-II FPGA (250k, 500k, or 1M gates) Dual 400 Mbitssec IEEE 1394 FireWire ports C6x11CPUA DSP resource board that combines either a fixed point TMS320C6211 or a floating point TMS320C6711 DSP Processor with SBSRAM, SDRAM, FLASH ROM, and the micro-line bus interface () Operating with the 32-bit fixed-point or floating-point TMS320C6211-150167 MHz or TMS320C6711-100150 MHz Micro-line bus, pin-compatible with the entire micro-line family Maximum performance of 1336 MIPS (C6211) or 900 MFLOPS (C6711) High-quality, single-board solution for applications requiring an embedded DSP and optionally programmable FPGA () Texas Instruments TMS320C6713 DSP 64 MB of SDRAM (128 MB SDRAM available on request), 2 MB flash ROM Optionally programmable Spartan-3 FPGA (up to 1 M gate density) Embedded DSP board () Texas Instruments TMS320C6211 or TMS320C6711 DSP U p to 2 MB of SDRAM or up to 64 MB of SDRAM Up to 512 KB flash EPROM, McBSP, and RS-232 micro-line C6x11CPUTexas Instruments TMS320C6211 or TMS320C6711 DSP () Up to 2 MB of SBRAM or up to 64 MB of SDRAM Up to 512 KB Flash EPROM, McBSP, and RS-232 Optional FireWire, Ethernet, analog and digital IO Micro-line C6713CompactStandalone and embedded-capable DSPFPGA board () Texas Instruments TMS320C6713 floating point DSP Processor 250k, 500, or 1M-gate complexity Virtex-II FPGA 400 MBps IEEE 1394 FireWire interface Standalone and embeddable DSPFPGA board () Texas Instruments TMS320C6713 floating point DSP 250 k, 500 k, or 1 M-gate complexity Virtex-II FPGA 400 Mbps IEEE 1394a FireWire interface A PCI-based FFT processor mezzanine that provides a complete development and processing platform for FFT-based DSP algorithms using DSP Architectures DSP-24 10,000 MIPS Vector DSP () An FFT processing module that provides high performance real-time FFT-based DSP algorithms () VectorWare is a software d evelopment tool for Vector-DSP-based boards () Provides all the tools to develop, simulatedebug, and deploy vector-DSP application code VectorBuilder is an optimizing compiler that generates vector microcode for the VT-5000 family of vector-DSP-based products Accepts a high-level vector instruction language known as VectorCode The VT-1420 product family consists of four products, VT-1420, VT-1423, VT-1425 and VT-1426 () The VT-1420 and VT-1426 are dual processor PMC modules and the VT-1423 and VT-1425 are single processor PMC modules All modules are targeted for DSP applications and are available with TMS320C6415 processors or TMS320C6416 processors These modules are compatible with any carrier board with a PMC compliant module site A 20,000 MIPS vector processing board that performs a 1K pt complex FFT in 21 181sec () The board is based on the 24-bit DSP-24 chip from DSP Architectures Designed for high-end market where FFT performance and data IO are important . A set of DSP PMC modules () VT-1420 dual and VT-1423 single TMS320C641516 DSP One or two TMS320C6415 or TMS320C6416 processors each with: clock speeds of up to 720 MHz 0, 16, 32, or 64 Mbytes of SDRAM 0, 1, or 2 Mbytes of FLASH Utopia level II interface on P14 An embedded VoIP gateway bridging legacy VME communications equipment to voicedata packet networks () 6U, single-slot, single-blade VMEbus configuration Offers modular feature expansion, scaling from a base T1E1J1 network interface board to a complete VoIP Media Gateway by adding DSP processor and protocol modules A DSP developers kit () Supports driver development for operating systems that are not directly supported by Voiceboard Includes source code for McBSP and API drivers, DSP software load utilities, API for remote IP or CompactPCI and VME based messaging and payload data transfer, example and test code, user manual, How to Write a MediaPro Device Driver manual, and up to 20 hours of telephone access to Device Driver techn ical support group . PTMC41PTMC41, a 240-port PTMC 2.15 DSP resource board, supported by Voiceboards broad range of off-the-shelf communications and VoIP media gateway software () DSP software libraries available for the PTMC41 include VoIP, conferencing (64 to 1,024 party), telephony functions, FAX, modems, vocoders, and RecordPlay resources For those customers desiring to integrate their own code onto the PTMC41 DSPs, Voiceboard offers a DSP Software Development Kit (SDK) including commonly needed telephony functions Will work with CPU, carrier board, or custom board that supports industry standard PICMG 2.15 PTMC specifications MediaPro resource software modules () MediaPro DSP software is downloaded into the memory of MediaPro DSP hardware Provides high-performance multi-port embedded modems and FAX servers . A high-density VME64 DSP resource board () SCSA TDM access Real-time multiprocessing of communications media datastreams Detection and generation of communications signaling tones PTMC41DSP PMC Mezzanine BoardA PTMC DSP resource board () Provides media conversion on 240 ports Flexible access to the H.110 backplane TDM bus and the carrier boards local PCI bus Real-time multiprocessing of communications media datastreams The SuperSpan VS32 is a VME 64 bus interface, software selectable T1E1J1 digital telephony network controller on a 6U board () A dual software selectable T1E1J1 span configurations, dual 100baseT connections, hot swappable, dual PTMC sites for optional DSP PMC and additional PowerPC 500 MIPS processor. The VS32 high-density dual span provides 60-port channel capacity Capabilities include play, record, call signaling tones, fax, V.22 and V.90 modem, conferencing, and VoIP packet voice through DSP PMC option SCSA backplane provides low latency switching of TDM data A DSP resource board with SCSA-bus-accessable DSP resources () Available with 24 C52 or 20 C549 fixed-point DSPs 128-Kbyte 15nsec SRAM per processor 16 Mbytes of shared DSP cache memory common to all DSPs A 240-port 6300 MIPS, DSP PMC board () Provides a full 240-port capacity for VoIP, telephony functions, T.38 Fax, V.22, V.90 modem, conferencing, or VoATM applications, including G.711 or G.723.1, G.729A, G.726 compression algorithms and G.168 long tail echo cancellation Compliant with PICMG 2.15 PTMC specifications, including access to the carrier board PCI and H.110 TDM buses 350-MIPS PowerPC 8240 executive controller supporting resource management, messaging, data buffers, TCP-UDPIP stacks, and dual redundant 100Base-T E thernet ports The SuperSpan VS34 is a VME 64 bus interface, software selectable T1E1J1 digital telephony network controller on a 6U board () A Quad software selectable T1E1J1 span configurations, dual 100baseT connections, hot swappable, dual PTMC sites for optional DSP PMC and additional PowerPC 500 MIPS processor. The VS34 high-density dual span provides 120-port channel capacity Capabilities include play, record, call signaling tones, fax, V.22 and V.90 modem, conferencing, and VoIP packet voice through DSP PMC option SCSA backplane provides low latency switching of TDM data Conference software C5441 DSP () Getting all the processing performance, memory and high-speed IO is a never ending quest for applications heavy in digital signal processing () Integrating the flexibility of programmable logic makes building a processor even more challenging The Xilinx Virtex-5 SXT platform establishes an industry record for DSP performance delivering 352 GMACs at 550MHz, while consuming 35 percent less dynamic power as compared to previous 90nm generation devices, and is the first DSP-optimized FPGA family to integrate serial transceivers The Virtex-5 SXT platform delivers the highest ratio of DSP blocks-to-logic needed for high-performance digital signal processing applications in wireless, such as WIMAX and high-definition video, such as surveillance and broadcast Avnet Virtex-6 FPGA DSP KitWireless, aerospace and defense, instrumentation and medical imaging applications continue to drive demanding performance requirements for todays sophisticated electronic systems () Due to their inherent hardware structure advantages, Xilinx FPGAs outstrip the high-end computing power of traditional digital signal processors Based on the performance leading Virtex-6 FPGAs, this DSP Kit bundles pre-validated software tools, IP and hardware into a platform that addresses even the most challenging applications With the addition of targeted reference designs, the Virtex-6 FPGA DSP kit enables users to focus on creating their own unique differentiation from the very beginning of the product development process, accelerating development for experienced users while also simplifying the adoption of FPGAs for new users Xilinx ISE Design Suite 11Logic, system, embedded and DSP domain-specific solutions () Pl anAhead8482 Design Analysis tool for optimizing performance ChipScope8482 Pro Analyzer and Serial IO Toolkit for real-time debug and verification System Generator for DSP for developing high-performance DSP systems using MathWorks products Avnet Spartan-6 FPGA DSP KitXilinx FPGAs exceed the computing power of DSPs with their inherent parallelism and offer co-processing methods of performance acceleration for signal processing () The Xilinx Spartan-6 FPGA DSP Kit integrates hardware, IP, software development tools and methodologies together into solutions that accelerate development for experienced users and simplify the adoption of FPGAs for new users With the addition of targeted reference designs, these DSP platforms enable users to focus on creating their own unique differentiation from the very beginning of the product development process This kit includes the Xilinx Spartan-6 LX150T board and allows users to quickly learn the different tool flows and design techniques involved in creating DSP centric designs with the Spartan-6 FPGA family Virtex-6 FPGA DSP KitProvides a platform for next generation products that include digital signal processing (DSP) which need to deliver more performance and flexibility with shorter development cycles and less cost and power () Out-of-the-box development solution that quickly builds confidence in developing DSP applications on FPGAs Includes a Xilinx ML605 development board including a Virtex-6 LX240T FPGA, design tools, IP, reference designs, and documentation Supports both traditional RTL and high-level design methodologies and can easily extended to include additional high-level design flows and IO daughter cards through third party partners and standardized integration . An ideal hardware platform to evaluate Xilinx FPGA in a wide range of video and imaging applications () Fully integrated and supported by the Xilinx System Generator for DSP software Utilizes high speed Ethernet hardware cosimulation capability and enables system integration, development, and verification of codecs, IP, and video algorithms in real time Comprised of a limited edition of the System Generator for DSP, Integrated Software Environment (ISE) FPGA design tool, Xilinx ML402-SX35 development board, video IO daughter card (VIODC), CMOS image sensor camera, power supply, cables, and detailed user guide and reference designs ISE Design Suite 12 software unlocks greater design productivity with breakthrough technologies for power optimization and cost () The Design Suite enables the fastest time to design completion with Xilinx Targeted Design Platforms 8211 available in four configurations aligned to user-preferred methodology logic, embedded, DSP, or system design Xilinx Targete d Design Platforms provide embedded, DSP, and hardware designers with access to an array of devices supported by open standards, common design flows, IP, and runtime platforms The ISE Design Suite offers domain-specific design environments and enables designers to meet power and performance goals with Xilinx CPLDs and FPGAs, including the new Virtex-6 and Spartan-6 families Spartan-3A DSPA DSP platform family () Xilinx XtremeDSP slice can be interconnected in creative ways on-chip Highest-performing family member provides 2,200 Gbps memory bandwidth Chips DSP48A slices can realize wide math functions, DSP filters, and complex arithmetic 8211 all at reduced power XtremeDSP DevicesThe Xilinx XtremeDSP initiative helps you develop tailored high performance DSP solutions for aerospace and defense, digital communications, multimedia, video, and imaging industries. () High-performance configurable FPGAs for DSP designs Development boards and Intellectual Property (IP) System Generator and AccelDSP design and development tools XtremeDSP SolutionStart designing using Simulink, MATLAB, or VHDL () HDLbitstream using System Generator for DSP tool Fast, parameterizable FFTs, filters, and FEC cores Free DSP software and IP core evaluations The Kintex8482-7 FPGA DSP Kit includes development boards, IO daughter cards, design tools, and reference designs, and gives designers the industry8217s largest portfolio of DSP, video, and floating-point IP blocks. () Hardware and documentation: KC705 base board with the Kintex-7 XC7K325T-FF900-2 FPGA 4DSP FMC150 high-speed ADCDAC FMC module USB, Ethernet, and MMCX RF coax cables universal power supply Downloadable schematics, BOM, and design files Documentation, including Getting Started Guide Software and IP: Full-seat ISE174 Design Suite Logic Edition, device-locked for the XC7K325T-FF900-2 FPGA CoreGen IP MathWorks174 evaluation software (MATLAB and Simulink) Targeted reference designs and tutorials Getting Started Reference Design High-performance DSP reference design . One integrated front-to-back FPGA IP catalog and design tool suite with unified interoperability () Domain specific design capture for DSP, embedded and logical design Accelerated system development via customization and integrated libraries of optimized IP Design tools optimized to minimize area while maximizing performance for Virtex-5 and Spartan-3 family Platform FPGAs Virtex-4 FPGAs for highest performance DSP () Up to 512, 500 MHz XtremeDSP Slices (18 x 18 multiply, 48-bit add) Virtex-4 for lowest power per channel 8211 each XtremeDSP Slice consumes only 2.3 mW per 100 MHz XtremeDSP Development ToolsModel and design your system using MATLAB, Simulink, and blocksets from The MathWorks () Use the Xilinx bit and cycle accurate library for designing algorithms for the FPGA Import MATLAB algorithms like linear algebra and matrix inversion and multiplication Automatically generate HDL or a bitstream at the push of a button with no loss in performance over designs written in HDL Power s upply 100-240 V, 5060 Hz with universal plug adaptors USB Platform download cable for configuration and debug System Generator for DSP design software
Pindah-rata-filter-order
Apakah-options-trading-halal