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In acest tutorial o sa va arat cum sa scapati de eroarea "NSIS".Aceasta eroare apare deoarece software-ul nu a reusit verificarea integritatii si este fie corupt sau deteriorat.Un virus de pe calculatorul dvs. poate sa deterioreze fisierul, va recomand sa va actualizati anti-virusul si sa va scanati calculatorul des. Sa incepem tutorialul propriu zis: 1.Mergem la start, dupa aceea folosim functia "Run..." si scrie "cmd" in acel mic chenar si apasam pe "OK". 2.O sa se deschida o fereastra neagra , in acea fereastra trebuie sa tragem pictograma fisierului de software, de exemplu sa presupunem ca dorim sa instalam TeamSpeak 3 versiunea 3.0.13 (TeamSpeak3-Client-win32-3.0.13) si acesta este stocat in : C:\Documents and Settings\My Documents\Descărcări Din acest folder trebuie sa tragem fisierul cu pricina in fereseatra de comanda.Cand am terminat aceasta operatiune trebuie sa adaugam in fata fisierului /NCRC , cu spatiu intre cele doua, dupa aceea apasam tasta "enter" si fisierul se va deschide fara aceasta eroare. Copyright @ CsBlackDevil 2015

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Introduction Almost everyone uses a computer daily, but many don't know how a computer works or all the different individual pieces that make it up. In fact, many people erroneously look at a computer and call it a CPU or a hard drive, when in fact these are just two parts of a computer. When these individual components are connected together they create a complete and working device with an all encompassing name of computer. As a computer user it is important that you have a basic understanding of the core components that make up your computer. This knowledge will prove invaluable if you decide to upgrade your computer or if a piece of hardware breaks and you need to purchase a replacement. The purpose of this tutorial is to discuss the basic pieces in every computer and their function. The Outside of your Computer When you look at your computer what you are seeing is actually the computer case. Inside the case are all of the individual components that when connected together create your computer. On the outside of the case you will see various external ports that you can plug devices into as well as the ability to access your optical devices such as your CD and DVD drives. Front of a Dell Inspiron Desktop Back of a Dell Inspiron Desktop Figure 1. Front and Back of a Computer Case On the front of the computer you will commonly find a CD or DVD drive that can be opened by pressing a small button near the door of the drive. This will eject the drive tray where you can place a CD or DVD disk. When you press the button again, the tray will slide back into your computer so that you can access it from within your operating system. On the front of the case, you will also typically find USB ports and media readers. A USB port is a small opening on the front of your computer that allows you to plug a USB device or cable into it. You can usually determine if a port on your computer is USB as it will have the logo next to it. Common devices that you would plug into USB ports are iPod and iPads, flash drives, and external hard drives. The other common ports that you can find are for camera memory media. These media readers allow you to remove the memory card from your camera and insert it into the computer so you can access the images stored on it. On the back of the case are connectors that are typically only used when you assemble your computer for the first time. These connectors allow you to connect external devices such as your printer, monitor, mouse, keyboard, and speakers. The back connections will also include an Ethernet port that will allow you to connect your computer to your network. Last, but not least, there will also be more USB ports available in the event that you need more USB connections than are available on the front of your computer. The Inside of your Computer Now that you know how to connect your various external components to your computer case, let's take a look at the inside of a computer as this is where the magic really happens. To open your case, you will need to typically unscrew a side panel or press a button on the bottom of the computer to open the computer like a clamshell. Once you can see inside a computer, you will see various individual components connected via cables or plugged directly into a large board attached to the side of the case. This board is the motherboard and is used to connect all the individual devices inside your case into a single computer. These individual devices and the motherboard they plug into can be seen in the image below. Figure 2. Inside of a computer As you can see from the image above, there are various components all connected to each other. Every device must be connected to the power supply unit, which provides electricity to various components. The add-on cards, each performing their own function, are inserted to the motherboard so that they can communicate with it. When all of these components are properly connected to each other, they can then communicate with each other and the computer will operate properly. In the next section we will discuss each individual component and what function they serve. The individual parts of your computer As already stated, a computer is nothing more than various individual hardware components connected to each through cables and the motherboard. These devices are then given electricity by the power supply unit so that they can function. In this section we will discuss the individual components and the function that each performs. Computer Case The computer case, also called a chassis, houses and protects other core parts of the computer. Computer cases come in different sizes and shapes in order to accommodate the various environments that they will be stored in. These shapes are: Tower - A tower case is vertical and usually sits on the floor. A tower case comes in a mini, mid, and full size, with the larger sizes being able to hold more components. Desktop - A horizontal case that is designed to rest on a shelf or sit on your desk with the monitor on top of it. Rack Mount - Rack Mount cases are horizontal and are typically used for servers. These servers will then mount in a rack so that there are stacks of computers in one computer rack. HAF 932 AMD Limited Edition Full Tower Case iStarUSA E3M8 Rackmount Case Figure 3. Computer Cases Computer cases also need to support the largest component that resides inside it, which is typically the motherboard. The motherboard can come in many different shapes and sizes, called form factors, and the specifications on a computer case will state which form factors can fit inside it. Virtually all modern cases have: Power switch Indicator lights such as disk activity or network activity. Back panel that contains holes to expose external ports. Metal framework to house the PSU and hard disk/optical drives Mounting points to secure the motherboard Vented panels to allow airflow through the case Depending on the model, some cases have other features as well such as headphone jacks or USB ports. Motherboard The motherboard, or mobo for short, is perhaps the most critical piece of the computer. It is a relatively large, rectangular board filled with various circuits, chips , and slots that you plug things into The motherboard serves two functions. First, the motherboard is home to a number of chips that dictate how the various components of the computer will talk to each other. It also has special slots that allow you to plug expansion cards in that add new or improved functionality to your computer. Secondly, and perhaps most importantly, the motherboard is the connecting point for all of the other pieces of the computer. Without the motherboard, the different parts cannot communicate with each other, and the computer cannot function. Figure 4. Computer Motherboard Motherboards come in a variety of sizes, or form factors, such as ATX or microATX. Generally speaking, the larger the form factor the more devices can be attached to it. Motherboards connect with the other devices in your computer using a set of special slots and connectors called ports that are located on the top and back edge of the motherboard. The ports on the back edge of the motherboard protrude out of the back panel of the computer case and allow you to connect external devices to the computer. Virtually all modern motherboards have one or more USB ports and an Ethernet port mounted externally to allow connection to the internet and external devices. Additionally, all modern motherboards contain at least one IDE or SATA port to allow the connection of a hard drive. Central Processing Unit The central processing unit, or CPU, is at the core of every computer. Functioning as the "brain" of the computer, the CPU performs basic mathematical and logical functions as instructed by a computer program. The CPU is located on the motherboard and is connected to it through a special port called the CPU socket. When the CPU is in use it generates heats, which must be transferred away from CPU chip so that it is not damaged. This is accomplished through the use of a heat-sink and fan which draws the heat out of the CPU chip and transfers it into the case instead. Figure 5. A computer's CPU or Processor A CPU has a maximum speed at which it can safely process instructions. This speed is called the clock rate and is measured in hertz (Hz). Some CPUs will allow a user to raise the clock rate beyond the speed at which the CPU is safely rated. This is called overclocking, and can provide increased computer performance at the cost of potential system instability or damage. Due to the complexity of overclocking and the potentially destructive side effects it can cause, overclocking is a technique not recommended for average or professional computer users. A relatively recent development in the field of CPU's is the multi-core processor. Having many processing cores in the CPU effectively multiplies its potential by allowing the CPU to simultaneously process as many instructions as it has cores. However, the OS must be designed to make use of multiple cores for this ability to take effect. The CPU of a modern PC will likely have anywhere from two to eight cores Power Supply Unit All parts of a computer require electricity in order to operate. The part of the computer that provides this electricity is called the power supply unit, or PSU. The PSU receives electricity from an external source, which is usually a wall outlet, and changes it into power that the other parts of the computer can use. Figure 6. Power Supply A PSU is necessary for two reasons. First, computers require direct current, or DC, power. However, electricity is supplied by power companies in alternating current, or AC, form. The PSU takes the AC electricity and converts it into a DC form so that the computer can use it. The second reason is that computer components use electrical power of relatively low voltage, while the electricity that comes out of a wall socket is of a significantly higher voltage. The PSU converts the higher voltage energy into a low voltage form that the computer can properly use. Power supplies are classified by the maximum amount of watts, such as 500 or 650 watts, which can be supplied to your computer system. The amount of electricity that is required to power a computer depends on what components the computer is using. For example, if you are using a high-end processor and a high-end video card your power you may need a more powerful PSU to support these power hungry devices. Therefore, when buying new components for a computer you should always look at the specifications for these devices to determine how much power they need and whether or not your PSU can support it. Hard Disk Drive The hard disk drive, or HDD, is the primary source of secondary storage in modern computers. Secondary storage is any device where information is stored when it is not needed for immediate use. An HDD uses magnetism to record information on a rotating disk of magnetic material. It uses a moveable arm containing a device called a drive head to read from and write to different portions of the disk.. Since the disk remains magnetized even after power is removed, information is not lost when you turn off the computer. One downside of HDDs is that they are very slow compared to other devices in the computer. This is because the drive must position the arm and disk in the correct position in order to retrieve a particular piece of information. Figure 7. Hard Disk Drive Modern HDDs have three major variables. The first is the drive capacity. This is how much information the drive can hold. Drive capacity is measured in either gigabytes (GB) or terabytes (TB). One terabyte is equal to one thousand gigabytes. The second variable is the rotation speed. This is how quickly the disk inside the HDD can rotate, and is measured in rotations per minute (RPM). The faster the disk spins, the more quickly information can be retrieved from it. The final variable is the type of interface the HDD uses. The interface is the part of the HDD that connects to the motherboard and is how the HDD sends and receives information. Most modern HDDs use SATA or SAS interfaces, although HDDs using IDE interfaces are still somewhat common. It is important to know which interfaces your motherboard supports when purchasing a new HDD. A recent addition to the personal computer market is a technology called a solid state drive, or SSD. While not technically an HDD, SSD's fill the same functions. The difference between HDD's and SSDs is that while an HDD uses a spinning disk to store data, an SSD uses special microchips. Due to this, SSD's are less susceptible to physical shocks such as impacts and falls compared to a HDD. Additionally, SSDs run silently and can access data more quickly. However, SSDs have a higher cost per gigabyte than their HDD cousins do. Optical Disk Drives An optical disk drive is a component that uses a laser to read from or write to an optical disk. Examples of optical disks include CD's, DVD's, and Blu-Rays. An optical disk drive writes to a disk by using a laser to etch tiny grooves into the surface of the disk. The disk is read by using a different, low-power laser to detect those grooves. Modern optical disk drives usually have reading and writing (burning) capability. Additionally, most optical drivesare backwards compatible, which means that a new technology can read the media from an older technology. For example, a Blu-Ray drive can also play DVDs and CD's. Figure 8. Optical Drive Optical disk drive speed is measured differently than HDD speed. While HDD speed is measured in the number of RPM's, optical drive speed is measured by the maximum rate at which data can be read from the disk. For each technology (CD, DVD, Blu-Ray) there is an industry-wide standard data rate that serves as a benchmark by which drive speeds are measured. The speed listed is put in terms of multiples of that base speed. For example, the base speed for Blu-Ray technology is 6.74 megabytes per second. Therefore, a drive rated at 52x can read data at a maximum rate of 52 x 6.74 = 350.48 megabytes per second. Cooling Devices As a computer runs, it generates a lot of heat. One or more cooling devices are part of any modern computer in order to keep the machine from overheating. The two types of cooling devices that are in almost every modern computer are heat sinks and cooling fans. Heat sinks are small metal structures that conduct heat well. They function by absorbing the heat produced by a component and efficiently releasing it into the air, or a liquid in certain special situations, similarly to how the radiator in your car works. Cooling fans work by removing warm air from components or heat sinks and pulling in cool air to replace it. Fans are available in a variety of sizes that determine how much air they can move within your case. When adding a fan, it is important to ensure that you purchase a fan that is compatible with your motherboard, since different fans have different kinds of power connectors. Figure 9. CPU Heat Sink and Fan Some extremely high-end PCs have liquid cooling systems which use tubes of flowing water or coolant instead of or in addition to cooling fans. These systems are more effective, quieter, and more efficient than air cooling systems. However, they are complex, expensive, and carry the danger of a coolant leak which can damage the system. For a typical PC, air cooling systems are sufficiently effective. Memory Random Access Memory, or RAM, is the part of the computer where information is stored while it is being used by the computer's processor, operating system, programs, and other devices on your computer. RAM is designed so that any of the information stored on it can be read in any order without losing performance. This makes RAM faster and more efficient to store data compared to slower devices such as an HDD or CD-ROM. Figure 10. Computer Memory When you are using your computer it copies information that it is currently using, such as parts of the operating system or currently running programs, into RAM so that it can work faster. The more RAM that the computer has, the less often it needs to get information off of the much slower HDD. To use a comparison, think of your HDD as a well. The information on the HDD is the water in the well, and the RAM is a bucket. The bigger your bucket, the fewer trips you have to make to the well to get the water you need. One characteristic of RAM is that it is volatile. This means that when you turn off the computer, any information in the RAM is erased. To protect against loss of information, an operating system will copy any data that it needs to the HDD so that it is available the next time you start the computer. RAM comes in different speeds and types. When you upgrade your computer's memory, it is important that you ensure that you choose a speed and type of RAM that is compatible with a computer's motherboard. A great tool for finding out what kind of memory your computer uses is Crucial Memory Advisor. Expansion Cards An expansion card is a device that is inserted into special slots on the motherboard and provides the computer with additional functions, resources, or features. There are a number of different kinds of expansion cards available; two of the most common being video cards, which provide increased graphics processing ability, and sound cards, which enhance the audio ability of the computer. Some expansion cards such as video cards also include their own processor, memory, and even cooling devices such as fans or heat sinks. When purchasing expansion cards there are a number of important factors to consider. First and foremost is the type of connection that the expansion card requires. There are a number of different standards for expansion slots, and motherboards have only a limited number of each kind of slot. Before purchasing you need to ensure that your motherboard has the required slots available for use. Another important factor is the size of the expansion card. The card needs to be able to fit inside your computer case, and should not make contact with any other parts of the computer except for the motherboard. Finally, you should ensure that your PSU can output enough power to support all your connected expansion cards. If the PSU cannot supply the computer with enough electricity then one or more of your devices will fail to function. Two common types of expansion cards are sound and video graphic cards, which are described below. Sound Cards Sound cards are a kind of expansion card which deals with audio input and output. Sound cards generally fill two functions. First, sound cards enhance the sound processing capability of the computer, allowing for the creation and output of more complex sounds. Secondly, sound cards often possess input and output ports that allow for other audio devices such as microphones or speakers to be connected to it. Figure 11. Sound Card Video Cards A video card is a type of expansion card which increases the computer's ability to handle different kinds of visual output. Video cards have two main functions. First, while nearly all modern motherboards have some basic graphics capabilities built in, a video card can handle graphics issues much more effectively than the graphic chips built into the motherboard. As a result, a video card allows for the creation and display of more complex and detailed images without putting an additional strain on the CPU. Additionally, since many video cards have their own memory, this leaves more of the general computer memory available for other purposes. Second, many video cards add additional functions to the computer such as video capture, a TV-tuner which allows you to watch TV on your computer, or the ability to connect multiple monitors to the computer. Figure 12. Video Graphics Card External Ports As mentioned above in the motherboard section, a number of connectors on the motherboard are accessible from the back panel of the computer case. These connections are called external ports because they can be accessed from outside the computer case. There are a number of different kinds of connections available that include: VGA or DVI Connector- These ports are used for connecting a monitor or other display device to your computer. Ethernet Port - This port allows you to connect your computer to a network or the Internet. HDMI - Allows you to connect your computer a High Definition display or TV. eSATA - These ports allow you to connect an external SATA hard drive to your computer. USB Port - A common connector for external devices. More information about USB ports can be found below. Figure 13. External Ports on the back of a computer Virtually every modern PC also includes one or more USB, or Universal Serial Bus, ports. There are two primary kinds of USB ports in use right now: USB 2.0 and USB 3.0. USB 3.0 ports can move data much more quickly than USB 2.0 ports. However, the connected device must be designed to take advantage of USB 3.0 technology in order to use the increased speed. USB ports and devices are both backwards and forwards compatible. This means that you can plug any standard USB device into any standard USB port, and the device will function. However, if the USB version of the device and the port do not match then the device can only transfer data to and from the PC at a maximum rate set by the lower of the two versions. For example, if you connect a USB 3.0 device to a USB 2.0 port, the device will only transfer data at a maximum rate of 60 megabytes per second, which is the maximum rate for USB 2.0 technology. When purchasing an external device such as a monitor, keyboard, mouse, or printer it is important to ensure that you have the correct kind of port available for use. Otherwise you will be unable to use the device. Conclusion As you can see, a computer is more than that box sitting on the side of your desk. In fact it is a very complex machine comprised of numerous parts, cables, and devices that all need to properly work together in order for the computer to operate correctly. Having this basic understanding of the parts of your computer is important for any computer user. Whether you need to purchase a new one, upgrade an existing one, or repair a broken one, you now have the knowledge to understand what you are looking at.

Începand de la Call of Duty 4: Modern Warfare, seria Call of Duty s-a bucurat de o po[CENSORED]ritate ieşită din comun, an de an conducând autoritar topurile de vânzări, devenind astfel unul dintre stâlpii de susţinere cei mai importanţi ai actualei industrii a jocurilor video. Firul s-a cam rupt însă la Call of Duty: Ghosts, trecerea la noile console şi pierderile de personal suferite de studioul Infinity Ward lăsându-şi amprenta asupra succeselor critic şi financiar ale jocului, cele mai scăzute din ultimii ani. Pentru a nu pierde de sub control “maşina de făcut bani” numită Call of Duty, Activision a apelat pentru ediţia din 2014 a jocului la proaspăt creata echipă de la Sledgehammer Games (ce a ajutat şi la Modern Warfare 3), rezultatul fiind, sincer vorbind, peste aşteptări. Call of Duty: Advanced Warfare nu numai că reuşeşte să readucă seria pe linia de plutire după fiascoul numit Ghosts, dar vine şi cu o serie de inovaţii (timide, ce-i drept), capabile să mai scoată Call of Duty din letargia ultimilor ani. ÎN ROLUL PRINCIPAL: KEVIN SPACEY Încă de la apariţia primului trailer pentru Advanced Warfare îţi puteai da seama că Sledgehammer Games a depus un efort suplimentar pentru realizarea unei campanii ceva mai închegate: Kevin Spacey îşi făcea apariţia, ridicând interesul asupra ceea ce urma să fie povestea acestui joc. Mai târziu l-am văzut şi pe Troy Baker (The Last of Us, BioShock Infinite, Middle-earth: Shadow of Mordor) în rolul personajului pozitiv, lucrurile devenind din ce în ce mai clare. Call of Duty: Advanced Warfare îşi propune să reproducă într-un mod cât mai spectaculos, caracteristic seriei, scenariul unui film de acţiune, fără prea mari pretenţii narative, însă absolut suficient pentru a oferi câteva ore bune de “fun”. Sledgehammer Games au renunţat la ideea de a întruchipa mai mulţi eroi pe parcursul aceleiaşi campanii, limitându-se la personajul lui Troy Baker, fost puşcaş marin şi actual angajat al grupării militare Atlas, aflată sub conducerea lui Jonathan Irons (Kevin Spacey). După cum spuneam mai devreme, povestea lui Advanced Warfare nu va întoarce capetele şi nici nu va stoarce lacrimi de bucurie/tristeţe, însă, în contextul unui joc video de tipul Call of Duty, îşi face treaba cu brio. Mai mult, modul în care este structurat scenariul a permis producătorilor să introducă numeroase tipuri de decoruri, de la peisaje îngheţate la oraşe aflate sub asediu şi până la păduri luxuriante. Şi, probabil pentru a da un ghiont rivalului Battlefield, pe parcursul acestor niveluri nu o dată vom avea de pilotat diverse vehicule: bărci cu motor, avioane de vânătoare, tancuri etc. Adăugaţi şi niste secvenţe de tip quick time event spectaculoase şi aveţi imaginea unui veritabil film de acţiune “made in USA”, prezentat însă sub forma unui joc video. De departe însă cea mai importantă modificare sunt exoscheletele şi posibilităţile pe care acestea le aduc în luptă. În funcţie de tipul disponibil pentru fiecare misiune (se atribuie automat, fără ca jucătorul să poată alege), aceste unelte conferă abilităţi precum săriturile mult mai înalte şi deplasarea mult mai rapidă, folosirea unui scut ce protejează împotriva damage-ului, activarea unei funcţii de slow motion sau chiar folosirea unor arme grele, capabile să doboare armate întregi. În functie de “performanţele” obţinute în misiuni (kills, headshots, grenade kills, strângerea de informaţii etc.), pot fi obţinute puncte de upgrade pentru aceste exoschelete, acesta conferind rezistenţă şi viteză de deplasare sporite, posibilitatea de a purta mai multe grenade şi alte asemenea bonusuri. PARTEA LEULUI: MULTIPLAYER-UL Să fim însă realişti: singleplayer-ul nu reprezintă principalul motiv pentru care jucătorii se întorc, an de an, la seria celor de la Activision. Mai mult, există persoane care nici măcar nu pornesc vreodată campaniile single player din Call of Duty, limitându-se la a toci hărţile multiplayer puse la dispoziţie. Din fericire, Advanced Warfare punctează şi la această categorie: rolul exoscheletelor în luptă modifică radical coordonatele luptelor, săriturile înalte şi mişcările rapide prin aer fiind acum la ordinea zilei, iar hărţile gândite în aşa fel încât să acomodeze cât mai bine aceste opţiuni noi. În rest, avem parte de acelaşi gameplay de tip “run and gun”, atât de apreciat de jucătorii de Call of Duty. O altă noutate este reprezentată de opţiunile avansate de personalizare a soldatatului controlat, cu numeroase modele de căşti, armuri, exoschele etc. disponbile. Mai mult, pe parcursul jocului, poţi câştiga Supply Drops, pachete care oferă aleatoriu câte 3 item-uri noi. Am citit prin diferite locuri că există foarte mulţi jucători de Call of Duty: Advanced Warfare nemultumiţi de instabilitatea online a jocului, aceştia plângându-se de apariţia erorilor sau a deconectărilor. Pe parcursul testării noastre, nu am avut parte de asemenea inconveniente, procesul de matchmaking realizându-se relativ rapid, iar meciurile propriu-zise desfăşurându-se fără probleme notabile (am folosit versiunea pentru PlayStation 4 a jocului). Mai mult, Call of Duty: Advanced Warfare oferă câteva opţiuni foarte rar prezente în jocurile contemporane: posibilitatea de a juca multiplayer în reţea locală (fără necesitatea de a fi conectat la Internet), precum şi în split screen, pe aceeaşi consolă. Nu în ultimul rând, în lipsă de adversari umani, se poate apela şi la boţi, numai buni pentru a învăţa hărţile fără a cădea victimă în faţa jucătorilor experimentaţi. Este de lăudat ca asemenea elemente, altădată comune în shootere, îşi mai fac apariţia într-un joc din 2014. Totuşi, dacă ar fi să tragem un pic Call of Duty: Advanced Warfare de urechi la capitolul multiplayer, modul Co-op ne-ar oferi ocazia perfectă. Avem de-a face de fapt cu un mod de joc de tip Horde, în care până la patru jucători echipaţi cu diferite tipuri de exoschelete upgradabile trebuie să reziste valurilor de inamici. Comparativ cu restul modurilor de joc, co-op-ul pare cam banal şi nu ajută nici faptul că hărţile din acest mod de joc sunt mult prea asemănătoare cu cele din PvP. NEXT GEN SAU NU? Unul dintre elemente pentru care seria Call of Duty a fost criticată mai tot timpul în ultimii ani este prezentarea sa grafică. Motorul grafic derivat din deja anticul Quake III Arena şi determinarea producătorilor de a atinge 60 FPS chiar şi pe console vechi nu ducea tocmai la cele mai spectaculoase rezultate vizuale. În cazul lui Call of Duty: Advanced Warfare avem şi veşti proaste, dar şi veşti foarte bune. Din păcate, jocul rulează pe o versiune actualizată a aceluiaşi motor grafic, deci cei care aşteptau o rezvoluţie din acest punct de vedere vor fi dezamăgiţi. Totuşi, chiar şi aşa, Advanced Warfare reuşeşte să fie cel mai arătos joc al seriei, Sledgehammer Games adăugând o sumedenie de efecte noi (precum motion blur-ul aplicat mişcării personajelor şi obiectelor), rezultatul fiind un joc care “dă” bine (mai ales în imagini statice) şi care rulează la un framerate constant de 60 de cadre pe secundă. În concluzie, Call of Duty: Advanced Warfare, chiar dacă nu revoluţionează seria, reuşeşte să pompeze energie într-o formulă ce începuse să devină, de la an la an, prea repetitivă şi banală. Dacă sunteţi un fan al seriei, Advanced Warfare nu ar trebui ratat, iar dacă titlurile Call of Duty din ultima vreme v-au dezamăgit, ar trebui măcar să-l încercaţi: s-ar putea să aveţi o surpriză plăcută. + campanie plăcută şi bine structurată + opţiunile adăugate de exoschelete + multiplayer caracteristic seriei + gameplay extrem de fluent + grafică peste aşteptări + Kevin Spacey - modul co-op dezamăgitor - povestea este previzibilă - probleme de stabilitate în multiplayer - motorul grafic învechit • OS: Windows 7 64-Bit / Windows 8 64-Bit / Windows 8.1 64-Bit • Procesor: Intel Core i5-2500K @ 3.30GHz • Memorie: 8 GB RAM • Placă video: NVIDIA GeForce GTX 760 @ 4GB • DirectX: versiunea 11 • Network: conexiune broadband la Internet • Hard Disk: 55 GB disponibili • Placă de sunet: 100% compatibilă cu DirectX 9.0c 16-bit

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De la dev si Rouge.

Hop` si euu :"> ) !

Şi unde-ţi este curajul de a-ţi posta aici o poză cu tine, pentru a ne uimi de ce ţi-a dat ţie Dumnezeu şi nouă nu ne-a dat!Văd că tu eşti un om care se crede Dumnezeu în persoană, eu zic că ar trebui să gîndeşti ce spui, că pe Forum ai luat warn, dar în realitate poţi rămâne şi fără ciţiva dinţi din faţă.

ce urati oameni thoamne fereste...

Welcome

19 years old pic from september start