Berbedadengan Intel Xeon, yang seluruh prosesor locked multiplier. Hanya bisa di- overclock melalui BCLK, sehingga hasilnya tidak maksimal. Price to Perfomance: Kalau membandingkan harga antara Intel Core dan Intel Xeon, perbedaannya sangat jauh sekali. Membuat perbandingan antara harga dan performa jauh lebih efisien Intel Core. Simakdeh perbedaan dan kegunaan dual core, quad core dan octo core berikut ini. 1. Dual Core. Istilah dual core sebenarnya bukanlah hal baru. Sebelum diterapkan di smartphone, prosesor jenis ini lebih dulu digunakan di komputer atau pun laptop. Jika smartphone -mu menggunakan dual core, itu berarti dalam perangkatnya terpasang dua core atau Meskipundemikian, sejak AMD mengeluarkan seri Ryzen, cap “cepat panas” ini mulai memudar, meskipun belum sebaik Intel dengan core i3, i5, i7, dan i9 yang masih menjadi primadona. Inilah yang membuat perbedaan AMD dan intel core i3 lebih mencolok. Baca juga: Cek Cara Mempercepat Koneksi WiFi di Laptop dan HP, Anti Lemot! 2. Grafis Singlecore single core atau tradisional cpu eksekusi instruksi string harus dengan memesan, jalankan, lalu simpan dalam cache secara selektif dan pencarian cepat. Lumayan ajiib gan 3.2ghz buat main game. Prosesor Dual Core Adalah Perbedaan performance processor dual core, core duo, core 2 duo, quad core, core i7, core i5 dan core i3 published 11 Quadcore adalah 4 inti. Hexa core adalah 6 inti. Octa core adalah 8 inti. Deca core adalah 10 inti. Dan begitu seterusnya. Pada smartphone di era sekarang, jumlah inti prosesor tersebut terkadang bisa mengecoh kita sebagai konsumen. Penjelasan lebih lanjut akan kita bahas di bawah yaa. VGyB. In logistics or the trade sector, optimised internal mechanisms are a key part of high-quality production processes. The question of storage location, for example, can be answered through consistent material monitoring or by identifying parts at important stages of the production and administration process. Given the first variant requires monitoring all the manufacturing facility's means of transport, it is suitably complex. Many dealers and logisticians thus rely on mobile data collection, in which scanners read 1D or 2D codes or RFID tags to detect where goods are located, how many goods there are, and the time at which they are located. The data-collection devices available today are adapted to modern requirements, and fitted with either quad-core or hexa-core processors. Both variants have their pros and cons, which all need to be weighed up when choosing the right scanner. Not all processors are the same Both quad-core and hexa-core processors are multi-core processors, microprocessors which combine more than one complete main processor core in a single chip. Multi-core processors have been developed to enable greater processing power. Costs also play a critical role here, as it is cheaper to fit just one processor base on the motherboard, which multiple processor cores then plug into. Multi-core processing has been on everyone's lips for many years as a result of the considerable advantages it offers. Once the first quad-core processors became available, it was soon apparent that they would significantly and easily speed up work processes. While the aim has always been to fully maximise processor performance, the performance gain does have its limits. After all, it depends heavily on implementation and the structure of the software algorithms used. If databases supplied with available data come into play, additional mechanisms need to be looked at. According to Amdahl's law – a model for accelerating programs through parallel design -, the speed increase/performance gain is limited by the amount of software capable of being parallelised. The model examines the relationship between the proportion of the program which can be processed in parallel and the acceleration resulting from parallel processing. And it is this very observation which is required in order for a multi-core CPU Central Processing Unit to be maximised. In general, hexa-core processors can achieve a greater performance gain than quad-core processors. Apparently. A comparison from everyday life If the hexa-core processor represents a sports car with 350 hp, and the quad-core processor a hatchback with 82 hp, it shouldn't be hard to work out which car reaches a faster speed on the highway and gets the driver to their destination quicker. Apparently. In peak hour, however, both vehicles are stuck in traffic jams for the same amount of time, and proceed at the same speed. Stop-start. If the sports car and hatchback have a breakdown on the way and have to stop in the emergency lane to wait for help, they both wait for the same amount of time. But as sports cars often contain special parts, it may require a special workshop to repair its damage, while the hatchback could potentially be back on the road that same day. In this case, the hatchback will be faster than the sports car. What this comparison shows is that there are always additional conditions which play a role in the overall picture. Processor availability is a particularly important factor in the direct comparison. Thinking ahead As more and more companies are starting to work with data-collection devices which combine the advantages of a modern Smartphone with mobile data recording, it is also important to take into account the device's life cycle. Smartphone life cycles these days are getting shorter, as the focus in the telecommunications industry is different to what it is in retail and logistics. When designing and developing new handheld terminals and scanners, a common requirement is that the product must be state-of-the-art, but also durable. As such, the processor it is operating with must also have long-term availability. The hexa-core processor is already reaching its limits in this respect. It is well possible for a device to be launched on the market in early 2017, but for the hexa-core processor installed in it to no longer be available by the end of 2017. Updates can, of course, be performed, but this requires time and resources – something commercial enterprises want to avoid if not absolutely necessary. There is currently no indication that the conventional quad-core processors installed in modern mobile data-collection devices will stop being available in the short term. In the end it always comes down to humans The user-device relationship must be the main priority when purchasing new data-collection devices. The applications for which a handheld terminal or scanner is to be used are also crucial. The processing power of a quad-core processor is very high, and compatibility with other systems and devices is largely guaranteed, though must always be checked separately. Comparing only the measurement values, the hexa-core processor yields faster results, but its product life cycle is much shorter, and its availability is not guaranteed. Both processors are reliable. But what's the point of an advanced hexa-core CPU if other components haven't been adapted? That's why, when choosing a data-collection device with quad-core or hexa-core processor, it is important to always consider whether, for example, it is going to be performing table calculations or whether high resolution for games and graphics is more of a priority. The answer appears obvious – yet the system interface is ultimately never the processor; it's the humans. They are the ones who decide whether they want to get to their destination in a sports car or hatchback. Nowadays, all data-collection devices need to be able to do more and more. But a device is only ever as good as the person operating it. And in the end, they are the most important and ultimate authority in the mix of performance gain, speed and processing. Infobox The DENSO Auto-ID Business Unit has been operating on the European market for more than 30 years, and specialises in mobile data collection in all its facets. The scanners and handheld terminals produced by the company, which is part of the Toyota Group, meet today's high standards in the retail and logistics industries, as well as in the transport, production, field & sales force automation, and health sectors. The BHT-1600 with quad-core processor was recently launched on the market. Before this originally Japanese company's scanner was able to be released, there were clear specifications requiring that the product be state-of-the-art, but also durable. The BHT-1600 is a scanner and company Smartphone in one – with a quad-core processor which delivers optimum results, and has already managed to impress many customers by catering to their every need. Mobile Explorer Jum’at, 02 Desember 2016 ZA RSInews – Ketika memilih smartphone, tentu yang pertama kamu lihat adalah speknya. Mulai dari prosesor, RAM, ROM, resolusi kamera, ukuran layar, dan yang pasti harganya. Warna dan merk urusan belakangan. Saat ini sebuah smartphone telah lazim menggunakan processor – Single-Core 1 inti – Dual-Core 2 inti – Quad-Core 4 inti – Hexa-Core 6 inti – Octa-Core 8 inti – Deca-Core 10 inti Lalu apa pengertian, fungsi dan perbedaan dari semua itu untuk smartphone kita? Nah, di kesempatan kali ini kami jelaskan core apa saja yang ada di Android dan apa kelebihan dan kekurangannya. Simak ulasannya hingga tuntas. [] Pengertian Prosesor Prosesor disebut juga sebagai CPU Central Processing Unit, dan dari namanya juga telah dapat ditebak bahwa processor memiliki peranan inti yang utama dalam sebuah device seperti komputer dan smartphone sebagai komponen utama yang mengeksekusi segala perintah yang diberikan oleh pengguna lewat aplikasi dan sistem operasi yang terinstal pada sebuah komputer atau smartphone. Jadi, bisa disimpulkan bahwa prosesor adalah inti dari sebuah device dan menjadi keharusan untuk kita menemukan prosesor yang terbaik agar performa smartphone tetap nyaman digunakan. Tapi tunggu dulu, bagaimana cara memilihnya? Pasalnya, prosesor terdiri dari banyak merk, jenis, dan banyak istilah yang sulit dimengerti. [] Jenis dan Merk Prosesor yang Umum di Android 1. Qualcomm Snapdragon 2. MediaTek Helio 3. Intel Atom 4. Samsung Exynos 5. Huawei Kirin HiSilicon 6. nVidia Tegra, dll Ketahui tentang ini selengkapnya pada link berikut Mengenal Chipset Pada Perangkat Android [] Fungsi Jumlah Core dalam Prosesor Sebelum membahas yang lainnya, ada baiknya kita mengetahui kenapa jumlah Core pada prosesor semakin banyak saja. Bukankah 2 inti juga sudah cukup dan GHz-nya saja yang dibesarkan misal menjadi GHz? Ya, hal ini memang masuk akal, namun sayangnya GHz dari sebuah Core tidak bisa diperbesar. Nah, solusi terbaik adalah dengan menggandakan Core. Misal, maksimal GHz dalam 1 Core adalah 2,1 GHz, maka agar lebih besar lagi para produsen prosesor membuatnya menjadi Dual-Core. Jadi, jika 1 Core = 2,1 GHz, maka 2 Core = 4,2 GHz. Itulah alasan kenapa Core semakin banyak. [] Macam-macam Jumlah Core di Berbagai Smartphone Agar bisa memilih prosesor dengan benar, ada baiknya untuk belajar lagi mengenai perbedaan Single-Core, Dual-Core, Quad-Core, dan Octa-Core. 1. Single-Core Seperti namanya, Core jenis ini hanya memiliki 1 inti yang akan mengerjakan proses secara sendirian dan hanya bisa mengerjakan 1 proses dalam 1 waktu. Kelebihan Paling cepat untuk memproses 1 buah data atau tugas. Hemat daya. Kekurangan Kinerja kurang. Lambat bila memproses 2 atau lebih tugas yang diberikan. Kurang cocok untuk multitasking. Kurang sesuai untuk gaming. 2. Dual-Core Nah, sekarang ada Dual-Core yang memiliki 2 inti. Berarti Core tidak bekerja sendirian. Nah, untuk mengetahui perbedaannya dengan Single-Core, kamu bisa lihat gambar di bawah ini Dari gambar di atas bisa disimpulkan bahwa Dual-Core itu seperti pasangan suami istri. Mereka bekerjasama dalam menjalani hidup, membuat pekerjaan menjadi semakin ringan. Dual-Core bisa memproses 2 pekerjaan sekaligus karena memiliki 2 inti yang bekerja bersamaan. Kelebihan Lebih stabil dari Core lainnya. Masih terbilang hemat daya. Kinerja cukup untuk multitasking. Gaming sudah cukup. Kekurangan Konsumsi daya lebih boros dari Single-Core. Kadang cepat panas. Bila memproses tugas terlalu banyak sekaligus akan sering terjadi force close. 3. Quad-Core Quad-Core memiliki 4 inti sehingga kinerjanya semakin cepat dan ringan saat memproses data. Selain itu, Quad-Core memiliki kelebihan dalam hal mutitasking. Kelebihan Kuat memproses tugas 4 sekaligus dengan cepat. Cocok untuk multitasking. Tidak mudah force close. Cocok untuk gaming. Kekurangan Cepat panas. Konsumsi daya cukup besar. Kadang ada Core yang tidak bekerja dan menyebabkan proses lambat. 4. Octa-Core Masih belum puas dengan performa Dual-Core maka diciptakan Octa-Core yang memiliki 8 inti dalam 1 prosesor. Ini bisa diartikan memproses 8 pekerjaan sekaligus dan membuatnya menjadi lebih cepat. Kelebihan Lebih cepat bila memproses 8 atau lebih tugas sekaligus. Cocok untuk multitasking. Sangat cocok untuk gaming. Kekurangan Konsumsi baterai sangat boros. Cepat panas. Banyak prosesor yang sebenarnya hanya menggunakan 4 Core. Sekarang kamu sudah jauh lebih tahu tentang Single-Core, Dual-Core, Quad-Core, dan Octa-Core kan? Dan ketahui lebih banyak lagi informasi berkaitan pada link di bawah. [©RSI] >Sumber JalanTikus Baca yang terkait ​Mengenal Istilah Nanometer, FinFET, Clock Speed, Core, dan Cortex pada Mobile ​Tips Memilih Prosesor Smartphone Mengenal Chipset Pada Perangkat Android Kenali Lebih Jauh Tentang Prosesor, Chipset, SoC dan GPU Mobile Phone Fungsi dan Kelebihan Prosesor 64-bit Dibanding Prosesor 32-bit

perbedaan hexa core dan quad core