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Optimize software instruments Use these guidelines when working with software instruments: When mixing, make sure to select an Audio track or an External MIDI track, not a Software Instrument track. Malwarebytes Offline. Skip to content Do you want to make cool digital audio with all the assets available?
 
 

 

Final Cut Pro X – Wikipedia.Logic Pro X for Windows 10, 7, 8, 32/64 bit Download Free

 

An audio segment can be replaced from matching channels for example, to replace audio from a boom microphone with the audio from a lavalier microphone while maintaining edits and fades in the timeline, or any matching channels can be added to new tracks.

Up to twelve Pro Tools Ultimate systems with dedicated hardware can be linked together over an Ethernet network—for example, in multi-user mixing environments where different mix components such as dialog, ADR, effects, and music reside on different systems, or if a larger track count or processing power is needed. Transport, solo, and mute are controlled by a single system and with a single control surface.

Pro Tools software is available in a standard edition informally called “Vanilla” [] providing all the key features for audio mixing and post-production, a complete edition officially called “Ultimate” and known as “HD” between and , which unlocks functionality for advanced workflows and a higher track count. The starter edition of Pro Tools called “First” was discontinued in In mids, Digidesign started working on a studio device that could replace classic analog consoles and provide integration with Pro Tools.

ProControl was the first Digidesign control surface, providing motorized, touch-sensitive faders, an analog control room communication section, and connecting to the host computer via Ethernet. ProControl could be later expanded by adding up to five fader packs, each providing eight additional fader strips and controls. Control 24 added 5. Command 8 and D-Command were the smaller counterparts of Control 24 and D-Control, connected with the host computer via USB; Venue was a similar system specifically designed for live sound applications.

They were integrated with Pro Tools along with the EuCon protocols. From Wikipedia, the free encyclopedia. Digital audio workstation. For other uses, see Pro Tools disambiguation. Pro Tools List of languages. This section needs to be updated. Please help update this article to reflect recent events or newly available information. May Music portal. Retrieved December 17, July 25, Archived from the original on July 25, Sound on Sound. Retrieved February 5, Retrieved December 18, Pro Tools Concepts.

Mixing to Dolby Atmos. Importing and Exporting Session Data. Avid Blogs. Retrieved May 13, EQ Mag. Archived from the original on October 4, Retrieved December 13, May 30, March Archived from the original on June 6, Retrieved January 13, Emulator Archive. February 25, Archived from the original on February 25, August Retrieved June 20, Retrieved January 7, November Retrieved January 12, Music Technology.

Production Expert. The New York Times. ISSN Retrieved February 7, Archived from the original on June 7, Retrieved February 6, Retrieved February 3, Mix Magazine. Archived from the original on June 4, Retrieved February 4, September 15, Applications such as multi-tasking, stress testing, and clustering — for high-performance computing HPC — may be more suited to a bit architecture when deployed appropriately. A common misconception is that bit architectures are no better than bit architectures unless the computer has more than 4 GiB of random-access memory.

The main disadvantage of bit architectures is that, relative to bit architectures, the same data occupies more space in memory due to longer pointers and possibly other types, and alignment padding. This increases the memory requirements of a given process and can have implications for efficient processor cache use. Maintaining a partial bit model is one way to handle this, and is in general reasonably effective. Not all such applications require a large address space or manipulate bit data items, so these applications do not benefit from these features.

The most severe problem in Microsoft Windows is incompatible device drivers for obsolete hardware. Most bit application software can run on a bit operating system in a compatibility mode , also termed an emulation mode, e.

DLL , which cannot call bit Win32 subsystem code often devices whose actual hardware function is emulated in user mode software, like Winprinters. Because bit drivers for most devices were unavailable until early Vista x64 , using a bit version of Windows was considered a challenge. However, the trend has since moved toward bit computing, more so as memory prices dropped and the use of more than 4 GiB of RAM increased.

Most manufacturers started to provide both bit and bit drivers for new devices, so unavailability of bit drivers ceased to be a problem. Driver compatibility was less of a problem with open-source drivers, as bit ones could be modified for bit use. Support for hardware made before early , was problematic for open-source platforms, [ citation needed ] due to the relatively small number of users. However, most bit applications will work well.

Mac OS X This allowed those Macs to support bit processes while still supporting bit device drivers; although not bit drivers and performance advantages that can come with them. On systems with bit processors, both the and bit macOS kernels can run bit user-mode code, and all versions of macOS up to macOS Mojave The bit versions of libraries have been removed by Apple in macOS Catalina This source-based distribution model, with an emphasis on frequent releases, makes availability of application software for those operating systems less of an issue.

In bit programs, pointers and data types such as integers generally have the same length. This is not necessarily true on bit machines. In many programming environments for C and C-derived languages on bit machines, int variables are still 32 bits wide, but long integers and pointers are 64 bits wide. These are described as having an LP64 data model , which is an abbreviation of “Long, Pointer, 64”.

Another alternative is the LLP64 model, which maintains compatibility with bit code by leaving both int and long as bit. There are also systems with bit processors using an ILP32 data model, with the addition of bit long long integers; this is also used on many platforms with bit processors.

This model reduces code size and the size of data structures containing pointers, at the cost of a much smaller address space, a good choice for some embedded systems. For instruction sets such as x86 and ARM in which the bit version of the instruction set has more registers than does the bit version, it provides access to the additional registers without the space penalty. Microsoft Windows uses an LLP64 model.

The disadvantage of the LP64 model is that storing a long into an int truncates. In the LLP64 model, the reverse is true. These are not problems which affect fully standard-compliant code, but code is often written with implicit assumptions about the widths of data types.

A programming model is a choice made to suit a given compiler, and several can coexist on the same OS. However, the programming model chosen as the primary model for the OS application programming interface API typically dominates. Another consideration is the data model used for device drivers. Drivers make up the majority of the operating system code in most modern operating systems [ citation needed ] although many may not be loaded when the operating system is running.

Many drivers use pointers heavily to manipulate data, and in some cases have to load pointers of a certain size into the hardware they support for direct memory access DMA. As an example, a driver for a bit PCI device asking the device to DMA data into upper areas of a bit machine’s memory could not satisfy requests from the operating system to load data from the device to memory above the 4 gibibyte barrier, because the pointers for those addresses would not fit into the DMA registers of the device.

This problem is solved by having the OS take the memory restrictions of the device into account when generating requests to drivers for DMA, or by using an input—output memory management unit IOMMU. As of May [update] , bit architectures for which processors are being manufactured include:.

Most architectures of 64 bits that are derived from the same architecture of 32 bits can execute code written for the bit versions natively, with no performance penalty.

People want that level of engagement. But how do we provide it in a way that’s a little more human, a little more in the moment when you’re with somebody? Rumors as far back as speculated that Apple was developing a wearable variation of the iPod that would curve around the user’s wrist, and feature Siri integration.

During a September press event where the iPhone 6 was also presented, the new watch product was introduced by Tim Cook. After a video focusing on the design process, Cook reappeared on stage wearing an Apple Watch. In comparison to other Apple products and competing smartwatches, marketing of the Apple Watch promoted the device as a fashion accessory.

The watchOS 3 added fitness tracking for wheelchair users, social sharing in the Activity app, and a Breathe app to facilitate mindfulness. The device was not branded as “iWatch”, which would have put it in line with its product lines such as iPod, iPhone, and iPad. Pre-orders for the Apple Watch began on April 10, , with the official release on April CNET felt that this distribution model was designed to prevent Apple Store locations from having long line-ups due to the high demand.

Both subsets featured cosmetic customization, but otherwise functioned like standard Apple Watches. Apple Watch went on sale in India in November Originally at launch, the Apple Watch was marketed as one of three “collections”, designating the case material. In order of increasing cost, the collections were:. Apple did not explicitly market the first-generation Apple Watch as being waterproof , stating that it can withstand splashes of water such as rain and hand washing , but does not recommend submersion IPX7.

Apple introduced a higher level of water resistance with the release of the Apple Watch Series 2, and the device was explicitly advertised as being suitable for swimming and surfing. Since the introduction of the Apple Watch, it has been available in two sizes, primarily affecting screen resolution and area.

The smaller size at launch was 38 mm 1. Starting with Series 4, the two nominal sizes changed to 40 mm 1. The overall shape and width of the watch has not changed significantly since its release, so customizable bands and accessories are typically compatible with any Apple Watch of the same size class. Bands that fit the smaller size class 38 mm 1. For input, the Watch features a “digital crown ” on one side which can be turned to scroll or zoom content on screen, and pressed to return to the home screen.

Next to the crown on the same side of the watch is the Side Button, which can be used to display recently used apps and access Apple Pay , which is used for contactless payment. Additional sensors integrated into the Watch include an accelerometer, gyroscope, and barometer, which are used to determine device orientation, user movement, and altitude. Because blood absorbs green light and reflects red light, the amounts of each type of reflected light are compared to determine heart rate.

The Watch adjusts the sampling rate and LED brightness as needed. Apple rates the device’s battery for 18 hours of mixed usage. The watch then reverts to its original mode when recharged or after holding down the side button.

Apple Watch comes with an included band strap to attach it to the user’s wrist. The band can be easily changed to other types by holding down the connectors on the bottom of the watch and sliding the band pieces out. Third party bands are compatible with Apple Watch, however Apple produces bands in a variety of materials and colours. Bands designed for the original Series 38 mm and 42 mm case sizes are compatible with the Series 40 mm and 44 mm cases, as well as the Series 7 41 mm and 45 mm cases, respectively.

Starting with Apple Watch Series 5, Apple introduced the online Apple Watch Studio which allows customers to mix and match bands on purchase, eliminating the need to purchase a specific combination of case and band design, and allows for a simplification of packaging since Apple Watch Series 4 in The 1st generation Apple Watch colloquially referred to as Series 0 uses the single-core S1 system-on-chip. It does not have a built-in GPS chip, instead relying on a paired iPhone for location services.

It features a new linear actuator hardware from Apple called the “Taptic Engine”, providing realistic haptic feedback when an alert or a notification is received, and is used for other purposes by certain apps.

All versions of the first-generation Apple Watch have 8 GB of storage; the operating system allows the user to store up to 2 GB of music and 75 MB of photos. When the Apple Watch is paired with an iPhone, all music on that iPhone is also available to be controlled and accessed from the Apple Watch.

It has a lower starting price than first generation. The Series 2 has the dual-core Apple S2 processor, water resistance to 50 meters, a display twice as bright, at nits , and a GPS receiver.

Siri is able to speak through the onboard speaker on Apple Watch Series 3 due to the increased processing speed of the Watch. Series 3 features LTE cellular connectivity for the first time in an Apple Watch, enabling users to make phone calls, iMessage and stream Apple Music and Podcasts directly on the watch, independent of an iPhone.

The Apple Watch Series 4 [94] is the first predominant redesign of the Apple Watch, featuring larger displays with thinner bezels and rounded corners, and a slightly rounder, thinner chassis with a redesigned ceramic back. Internally there is a new S4 bit dual-core processor, capable of up to double the S3’s performance, upgraded 16 GB storage, and a new electrical heart sensor.

The microphone was moved to the opposite side between the side button and the digital crown to improve call quality. Other changes include the digital crown incorporating haptic feedback with the Apple Haptic Engine and includes the new Apple-designed W3 wireless chip. The watch received mostly positive reviews from critics.

TechRadar gave it a score of 4. The Apple Watch Series 5 was announced on September 10, Additional new features include International Emergency Calling, enabling emergency calls in over countries, a more energy-efficient S5 processor, [] improved ambient light sensor, and storage doubled to 32 GB.

The release of the Series 5 also brought back the “Edition” model, with a ceramic model absent from the previous generation. A new titanium model was also included in two colors: natural and Space Black. The Series 5 and above including the SE model introduced in also incorporate enhanced hardware- and software-based battery and performance management functionality. Critics generally gave it a positive review. Its principal improvement over its predecessor is the inclusion of a sensor to monitor blood oxygen saturation.

Apple Watch runs watchOS , whose interface is based around a home screen with circular app icons, which can be changed to a list view in the devices settings. The OS can be navigated using the touchscreen or the crown on the side of the watch. The Apple Watch is capable of receiving notifications, messages, and phone calls via a paired iPhone. Users are able to keep apps running in memory as well as receive background updates and refreshed information. Other updates include a new Dock invoked with the side button to replace the performance-laden Glances, an updated Control Center, and new reply options on Messages.

Several new watch faces have also been added, including Minnie Mouse , along with the ability to switch watch faces from the lock screen simply by swiping. A new feature called SOS allows users to hold the dock button to make a call to the local emergency line and pull up the user’s Medical ID. Another feature is Activity Sharing, which allows sharing of workouts with friends and even sending their heartbeats to one another.

A new app called Breathe guides users through breathing exercises throughout the day, with visuals and haptic feedback. It was made available to the public in September WatchOS 4. WatchOS 4 features a proactive Siri watch face, personalized activity coaching, and an entirely redesigned music app. It also introduces Apple GymKit , a technology platform to connect workouts with cardio equipment. It introduced support for Nightstand mode in portrait orientation.

It brought back the ability for music playing on the iPhone to be controlled using the Music app on the Apple Watch and also enabled control of playback and volume on Apple’s HomePod. Other new features included a new charging animation and a new app loading animation. Activity data was added to the Siri watch face, and the battery complication more accurately reports battery life.

It introduced an instant watch-to-watch walkie-talkie mode, all-new Podcasts app, raise-wrist-to-speak Siri, customizable Control Center, and the ability to access the notification center and control center from apps.

Other features included support for WebKit to view web pages, six new watch faces, and new workout running features. It introduced more native iOS apps such as voice memos, calculator, and a native watchOS app store.

Other features include Siri being able to tell users what music they are listening to, activity trends, and a new UI framework for developers. In watchOS 1, third-party WatchKit applications run in the background on the iPhone as an application extension while a set of native user interface resources are installed on Apple Watch.

This was assisted by the introduction of a separate App Store on the Apple Watch itself. Apple Watch Series 1 models were previously only available with aluminum cases and sport bands. As of Series 3, each Apple Watch model in aluminum, the least expensive casing, is available either with or without LTE cellular connectivity , while the models with the other casing materials available stainless steel and sometimes ceramic and titanium always include it. Each model through Series 3 comes in a or millimeter body, with the larger size having a slightly larger screen and battery.

The Series 7 has been updated to and millimeter models. Each model has various color and band options. Featured Apple-made bands include colored sport bands, sport loop, woven nylon band, classic buckle, modern buckle, leather loop, Milanese loop, and a link bracelet. LTE : 36 kg CO 2 e []. LTE: 39 kg CO 2 e []. My Piano Phone Free.

Pirate’s Path Free. Alchemic Phone 7 Free. Mind Your Step Free. Additional information Published by AppDesigner. Published by AppDesigner. Developed by AppDesigner. Approximate size Age rating For all ages. Category Music. Installation Get this app while signed in to your Microsoft account and install on up to ten Windows 10 devices.

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Logic pro x 64 bit vs 32 bit free. 32-bit vs 64-bit – Your Questions Answered

 
 

In computer architecturebit integersmemory addressesor other data units [a] are those that are 64 bits wide. Also, bit CPUs and ALUs are those that are based on processor registersaddress busesor data buses of that size. A computer that uses such a processor is a bit computer. From the software perspective, bit computing means the logic pro x 64 bit vs 32 bit free of machine code with bit virtual memory addresses. However, not all bit instruction sets support full bit virtual memory addresses; x and ARMv8for example, support only 48 bits of virtual address, with the remaining 16 bits of the virtual address required to be all 0’s or all logic pro x 64 bit vs 32 bit free, and several bit instruction sets support fewer than 64 bits of physical memory address.

The term bit also describes a generation of computers in which bit processors are the norm. A bit register can hold any of 2 64 over 18 quintillion or 1. The range of integer values that can be stored in 64 bits depends on the integer representation used. Hence, a processor with bit memory addresses can directly access 2 64 bytes 16 exbibytes or EiB of byte-addressable memory.

With no further qualification, a bit computer architecture generally has integer and addressing registers that are 64 bits wide, allowing direct support for bit data types and addresses. However, a CPU might have external data buses or address buses with different sizes from the registers, even larger the bit Pentium had a bit data bus, for instance.

Processor registers are typically divided into several groups: integerfloating-pointsingle instruction, multiple data SIMDcontroland often special страница for address arithmetic which may have various uses and names such as addressindex pdo, or base registers. However, in modern designs, these functions are often performed by more general purpose integer registers.

In most processors, only integer or address-registers can be used to address bitt in memory; the other types of registers cannot. The size of these registers therefore normally limits the amount of directly addressable memory, even if there are registers, such as floating-point registers, that are wider. In contrast, the bit Alpha family uses a bit floating-point data and big format, and bit integer registers.

Many computer instruction sets logic pro x 64 bit vs 32 bit free designed so that a single integer register can store bti memory address to any location in the computer’s physical or virtual memory. Therefore, the total number of addresses to memory is often determined by the width of these registers. A bit address register meant that logoc 32 addresses, or 4 GiB of random-access memory RAMcould be referenced.

When these architectures were devised, 4 GiB of memory was so far beyond the typical amounts 4 MiB in installations, that this was considered to be enough headroom for addressing.

Some supercomputer architectures of the s and s, such as the Cray-1[2] used registers up to 64 bits wide, and supported bit integer arithmetic, although they did not support bit addressing. In the mids, Intel i [3] development began culminating in a too late [4] for Windows NT release; the i had bit integer registers logic pro x 64 bit vs 32 bit free bit addressing, so it was not a fully bit processor, although its graphics unit supported bit integer arithmetic.

A notable exception to this trend were mainframes from IBM, which then used bit data and bit address sizes; the IBM mainframes did not include основываясь на этих данных processors until During the s, several low-cost bit microprocessors were used in consumer electronics and logic pro x 64 bit vs 32 bit free applications.

Notably, the Nintendo 64 [6] and the PlayStation 2 had bit microprocessors before their introduction in personal computers. High-end printers, network equipment, and industrial bti, also used bit microprocessors, such as the Quantum Effect Devices R However, not all instruction sets, and not all processors implementing those instruction sets, support a full bit virtual or physical address space. The x architecture as of [update] allows 48 bits for virtual memory and, for any given processor, up to 52 bits for physical memory.

A PC cannot currently contain 4 pebibytes of memory due to the physical size of the memory chipsbut AMD envisioned large servers, shared memory clusters, and other uses of physical address space that might approach this in the foreseeable future. Thus the bit physical address provides ample room for expansion while not incurring the cost of implementing full bit physical addresses.

The Power ISA v3. The Oracle SPARC Источник allows 64 bits for virtual memory and, for any given processor, between 40 and 56 bits for physical memory. The DEC Alpha specification requires minimum of 43 logic pro x 64 bit vs 32 bit free of virtual memory address space 8 TiB to be supported, and hardware need to check and trap if the remaining unsupported bits are zero to support compatibility on future processors.

Alpha supported 43 bits of virtual memory address space 8 TiB and 34 bits of physical memory address space 16 GiB. Bbit supported 43 bits of virtual memory address space 8 TiB and 40 bits of physical memory address space 1 TiB.

Alpha supported user-configurable 43 or 48 bits of virtual memory address space 8 TiB or TiB and 44 bits of physical memory address space 16 TiB. A change from a bit to a bit architecture is a fundamental alteration, as most operating systems must be extensively modified to take advantage of the new architecture, because that software has to manage the actual memory addressing hardware.

The operating systems for those bit architectures generally support both bit and bit applications. The IMPI instruction set was quite different from even bit PowerPC, so this transition was even bigger than moving a given instruction set from 32 to 64 bits. On bit hardware with x architecture AMD64most bit operating systems and applications can run with no compatibility issues.

While the logic pro x 64 bit vs 32 bit free address space of bit architectures makes working with large data sets in applications such as digital videoscientific computing, and large databases easier, there has been considerable debate on whether they or their bit compatibility modes will be faster than comparably priced bit systems for other tasks.

A compiled Java program can run on a or bit Java virtual machine with no modification. The lengths and precision of all the built-in types, such as charshortintlongfloatand doubleand the types that can be used as array indices, are specified by the standard and are not нажмите чтобы узнать больше on the underlying architecture.

Java programs that run on a bit Java virtual machine have access to a larger address logkc. Speed is not the only factor to consider in comparing bit and bit processors. Applications such as multi-tasking, stress testing, and clustering — for high-performance computing HPC — may be more suited to a bit architecture when bkt appropriately. A common misconception is that bit architectures 664 no better than bit architectures unless the computer has more than 4 GiB of random-access memory.

The main disadvantage of bit architectures is that, relative to bit architectures, the same data occupies more space in memory due to longer pointers and possibly other types, and alignment padding.

This increases the memory requirements of a given process and can have implications for efficient processor cache use. Maintaining a partial bit model is one way to handle this, and is in general reasonably effective. Not all such applications require a large address space or manipulate bit data items, so these bt do not benefit from these features. The logi severe problem in Microsoft Windows is incompatible device drivers for obsolete нажмите чтобы прочитать больше. Most bit application software can run on a bit operating system prro a compatibility modealso termed an emulation mode, e.

DLLwhich cannot call bit Win32 subsystem code often devices whose actual hardware function is emulated in user mode software, like Winprinters.

Because bit drivers for most devices were unavailable until early Vista x64using a bit version of Windows was considered a challenge. However, the trend has since moved toward bit computing, more so as memory prices dropped and the use of more than 4 GiB of RAM increased. Most manufacturers started to provide both bit and bit drivers for new devices, so unavailability of bit drivers ceased to be a problem.

Logic pro x 64 bit vs 32 bit free compatibility was less of a problem with open-source drivers, as bit ones could be modified for bit use. Support for hardware made before earlywas problematic for open-source platforms, [ citation ve ] due to the relatively small number of users. However, most bit applications will work well. Mac OS X This allowed those Macs to support bit processes while still supporting bit lofic drivers; although not bit drivers and performance advantages that can come with them.

On systems with bit processors, both the and bit macOS kernels can run bit user-mode code, and all versions of macOS up to macOS Mojave The bit versions of libraries have been removed by Ve in macOS Catalina This source-based distribution model, with an emphasis on frequent releases, makes availability of application bi for those operating systems less of an issue.

In bit programs, pointers and data types such as integers generally have the same length. This is not necessarily true on bit machines. In many programming environments for Logic pro x 64 bit vs 32 bit free and C-derived languages on bit machines, int variables are still 32 bits wide, but long integers and pointers are 64 bits wide. These are described as having an LP64 data modelwhich is an abbreviation of logic pro x 64 bit vs 32 bit free, Pointer, 64″. Another alternative is the LLP64 model, which maintains compatibility with bit code by leaving both int and long as bit.

There are also systems with bit processors using an ILP32 data freee, with the addition of bit long logic pro x 64 bit vs 32 bit free integers; this is also used on many platforms with bit processors.

This model reduces code size and the size of data structures containing pointers, at the cost of по ссылке much smaller address space, a good choice for some embedded systems. For instruction sets such as x86 and ARM in which the bit version of the instruction set has more registers than does the bit version, it provides access to the additional registers without the ссылка на страницу penalty. Microsoft Windows uses an LLP64 model.

The disadvantage of the LP64 model is that storing a long into an int truncates. In the LLP64 model, the reverse is true. These are not problems which affect fully standard-compliant code, but code is often written with implicit assumptions about the widths of data types. A programming model is a choice made to suit a given compiler, and several can coexist on the same OS.

However, the programming model chosen as the primary model for the OS application programming interface API typically dominates. Another consideration is the data model used for device drivers. Drivers make up the majority of the operating system code in most modern operating systems [ citation needed ] although many may not be loaded when the operating system is running.

Many drivers use pointers heavily to manipulate data, and in some cases have to load pointers of a certain size into the hardware they support for direct memory access DMA.

As an example, a driver for a bit PCI device asking the device to DMA data into upper areas of a bit machine’s memory could not satisfy requests from the operating system to load data from the device to memory above the 4 gibibyte barrier, because the pointers for those addresses would not fit into the DMA pri of the device.

This problem is solved by having the OS take the memory /4718.txt of the device into account when generating requests to drivers for DMA, or by using an input—output memory management unit IOMMU.

As of May [update]bit architectures for which processors are being frwe include:. Most architectures of 64 bits that are derived from the same architecture of 32 bits can execute code written for the bit versions natively, with no performance penalty.

Vvs Wikipedia, the free encyclopedia. Computer architecture bit width. For bit images in computer graphics, see Deep color. This section needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. January Learn how and when to remove this template message.

Cray Research. Retrieved October 8, S2CID Retrieved Pascal Warner Books.

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