The /bundles/ is a virtual path, and bs-jq-bundle is the name of a bundle. Then, in this bundle, we included two js files, bootstrap.js and jquery-3.3.1.js. After that, we included two js files in this bundle: bootstrap.js and jquery-3.3.1.js. You can use the bundles.Add() method to add the new bundles to the BundleCollection. As mentioned above the bs-jq-bundle will be created in release mode by default. Use BundleTable.EnableOptimizations = true if you want to observe bundles in debug mode.
From the Application Start event in the Global.asax.cs file, the ASP.NET MVC framework executes BundleConfig.RegisterBundle().As a result, when an application starts, all bundles are added to the BundleCollection.
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In this blog, we have learned about how to combine ScriptFiles using ScriptBundle in ASP.NET MVC using directory in bundle, wildcards, CDN with example. This will help you to improve your skills and grip over Asp.net MVC.
The dorsal nerve of the penis has branching fibers that course laterally and transect the corpus spongiosum to the sinusoidal erectile tissue containing the urethra. The fibers of the dorsal nerve of the penis penetrate the corpus spongiosum to innervate the urethral lumen as afferents. These fibers receive input and relay the information during micturition and ejaculation. Semen is primarily expelled from the bulbous urethra via contraction of the bulbospongiosus muscle.[6] However, this muscle is not innervated by the dorsal nerve of the penis but by a sister branch of the pudendal nerve. Electrophysiological studies have documented that stimulation of the penis' dorsal nerve causes a reflex contraction of the bulbospongiosus muscle. During ejaculation, the penis dorsal nerve fibers provide the urethral sensation associated with the passage of seminal fluid necessary to sustain bulbospongiosus contractions until the expulsion of seminal fluid is complete.[7]
A neurovascular bundle runs along the dorsal aspect of the penis in a groove between the corpora cavernosa hemispheres. This groove includes the dorsal nerve of the penis, dorsal penile vein, and dorsal penile artery. These lay beneath the deep fascia, also known as Buck's fascia.
The initial cluster consists of fibers parallel to the shaft of the penis that moves distally and ends at the glans of the penis. An additional group of fibers branches from the main body towards the lateral aspects of the penis.[9] These branches vary in position and quantity. However, they always branch laterally away from the main body of the penis. The axons do not cross the dorsal midline. The gauge of the nerve bundles varies greatly, but they consistently narrow as branching continues distally.[4]
The dorsal nerve bundles continue straight into the glans penis to form midline branches, and ventrolateral branches arise from the lateral bundles. The distal branches of the terminating nerves travel toward the meatus of the urethra.[10] As the dorsal nerve of the penis enters the glans, it immediately branches and displays a more three-dimensional pattern as opposed to a linear convention seen proximally. Each of the main glandular branches continues along the tunical surface, projecting bundles of smaller nerves that extend into the tissue of the glans and outwards toward the surface of the penis.
The number of dorsal bundles most commonly reported are two and three, but there have been periodic reports of up to 8 variants. Most of the dorsal nerves run parallel to each other in the dorsal aspect of the penis, traveling distally. Communicating branches are commonly viewed in no specific orientation or frequency. These branches usually communicate amongst each other, but ventral nerve communications are noted in cadaver studies infrequently. Most dissection studies comment on the absence of nerves that cross the dorsal midline.
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Coding Question: If a physician has two plans for two separate lesions, but treats these on alternate days that total more than five fractions, can SBRT codes be used?Coding Answer: Instructions for CPT code 77373 (SBRT treatment delivery, per fraction to 1 or more lesions, including image guidance, entire course not to exceed 5 fractions) include the possibility of treating multiple sites of disease in one treatment course. Therefore, if the sum of the treatment days for all of the sites treated during a single course of therapy exceeds five; it is not appropriate to charge CPT code 77373 for SBRT delivery.Coding Question: In a hospital-based setting using a linear accelerator-based modality, if a patient with three brain metastasis that require separate single-fraction treatment plans (related to clinical issues such as treatment time or integral dose), is it appropriate to charge the SRS treatment code (77372) and the weekly management code (77432) per treatment plan (i.e. charging 77372/77432 with each treatment delivery)? In addition, can each treatment plan (77295) be charged separately? Or should the hospital bill 77373 and the corresponding SBRT weekly management (77435) and just a single treatment plan (77295), regardless of the number of treatment plans generated and treated?
You can build a hybrid cloud ecosystem while ensuring availability, security, and accessibility with flexibility as you deliver timely and efficient new services for your digital business. The IBM z15 server provides the availability required by your most mission-critical workloads and the security demanded by your most valuable data. Then a comprehensive portfolio of IBM solutions help you deploy and support your cloud environment, as well as expand access to it. IBM Z software offerings combine to help you integrate and manage your ideal cloud environment. In September 2019, IBM plans to introduce IBM z/OS Container Extensions (zCX), which is intended to enable access to a large ecosystem of open source and Linux on IBM Z applications that are planned to be deployed and managed within the native z/OS environment without requiring a separately provisioned and managed Linux server, using popular Docker container skills and patterns. This will allow you to be able to use the latest open source tools, popular NoSQL databases, analytics frameworks, application servers, and so on within your z/OS environment. It is intended that z/OS developers will gain DevOps agility through the use of Docker containers and the ability to deploy open source application development utilities, Linux -based shell environments, and so on.
IBM Integrated Accelerator forzEnterprise Data Compression is provided on each processor chip and uses industry-standardcompression formats for file compression that can enable reduction in the size of data which cansave storage space and increase data transfer rates. It can also reduce CPU consumption and costsassociated with moving, processing, encrypting/decrypting, and otherwise manipulating smalleramounts of compressed data. IBM Integrated Accelerator for zEnterprise Data Compression interoperates compatibly with the zEDCcompression used on previous IBM Z platforms and with industry-standard compression used on other platforms.
Ready for the cloud data center, the IBM z15 is housed in a new standardized 19-inch frame (one to four frames, depending on the configuration) that makes it ready for colocation and standardized facilities management.
System Recovery Boost can provide additional processing capacity during the limited-durationstartup and shutdown "boost periods" in a variety of different ways, depending on the IBM z15 server configuration and onspecific operating system exploitation capabilities. On subcapacity machine models (4xx, 5xx, and6xx), System Recovery Boost can temporarily boost the processing capacity of general-purposeprocessors to run as if they were full-capacity processors, only in those system images that areactively experiencing a boost. This temporary increase in general-purpose processing capacity forthe boosting images is not visible for pricing purposes, so it does not lead to IBM software licensing cost increases. (Whereconsumption-based pricing metrics are being used, it may of course allow more general-purposeprocessing capacity to be consumed in a shorter amount of time, as execution of work on the systemis accelerated.) On servers with zIIP processors, System Recovery Boost is designed to help unlockthe parallelism, capacity, and acceleration potential of those zIIP processors by temporarilyallowing general-purpose workload to run on them during the boost period, only in the system imagesthat are actively experiencing a boost. This use of zIIP processor capacity in a novel way appliesonly to operating systems that support zIIPs (for example, z/OS ), and to system images that actually have zIIP processingcapacity defined to them.
Compression using the IBM Integrated Accelerator for zEnterprise Data Compression allows the ability to reduce the amount of data to be processed, stored, and transferred. Doing so can help reduce storage cost, increase effective network bandwidth, and reduce overall CPU consumption for functions like encrypting data or performing I/O operations. The z15 compression design point builds on and extends the value provided by the previous zEDC Express design in z14, showing for example a net reduction of CPU cost for encrypting and storing compressed data compared to storing data uncompressed and unencrypted. These savings enhance the value created by the encryption itself and the reduced storage footprint. 2ff7e9595c
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