If the driver listed is not the right version or operating system, search our driver archive for the correct version. Enter Custom KUBE 80mm (200dpi) into the search box above and then submit. In the results, choose the best match for your PC and operating system.
Once you have downloaded your new driver, you'll need to install it. In Windows, use a built-in utility called Device Manager, which allows you to see all of the devices recognized by your system, and the drivers associated with them.
KUBE II is the ideal thermal POS printer for the retail and hospitality sectors. Thanks to its compact, appealing and robust design, and the possibility to install it both vertically and horizontally, it is the ideal solution for Points of Sale. KUBE II comes powerful and extremely fast: it prints on 80/82.5mm tickets providing extraordinary printing quality and the possibility to move and position the characters and graphics in any direction. The large paper roll (90mm diameter) assures High printing capacity. KUBE II features unique performance levels, sturdiness and reliability: it is equipped with long-life and high quality printing head (200 km of printed paper), and with the new cutter for automatic receipt cutting, to provide the greatest efficiency for over 2 million cuts. KUBE II prints high resolution graphic coupons and logos. As accessories, we have available the coloured sides (red, silver and beige). KUBE II comes equipped with USB, Serial RS232 or Ethernet interface, with drawer control drivers.
PrinterSet to update logos, edit characters, set operating parameters and update the printer firmware. It allows you to create a file including the different SW customizations and send them to the printer via the interface provided, for easy and fast setting.semplice e veloce.
When there is a free slot for request Selenoid decides whether a Docker container or standalone driver process should be created. All requests during startup are marked as pending. Before proceeding to next step Selenoid waits for required port to be open. This is done by sending HEAD requests to the port.
Use modern OverlayFS Docker storage driver. AUFS is also fast but has some bugs that can lead to orphaned containers. Never use Device Mapper - it is very slow. See this page on how to adjust Docker storage driver. To check your currently used driver type:
path (optional) - path field is needed to specify relative path to the URL where a new session is created (default is /).Which value to specify in this field depends on container contents.For example, most of Firefox containers have Selenium server inside - thus you need to specify /wd/hub.Chrome and Opera containers use web driver binary as entrypoint application which is accepting requests at /.We recommend to use our configuration tool to avoid errors with this field.
Kubectl is a command line tool that you use to communicate with the Kubernetes API server. The kubectl binary is available in many operating system package managers. Using a package manager for your installation is often easier than a manual download and install process.
You must use a kubectl version that is within one minor version difference of your Amazon EKS cluster control plane. For example, a 1.23 kubectl client works with Kubernetes 1.22, 1.23, and 1.24 clusters.
If you have kubectl installed in the path of your device, the example output includes the following line. You can ignore the message explaining that --short will become the default in the future. If you want to update the version that you currently have installed with a later version, complete the next step, making sure to install the new version in the same location that your current version is in.
Download the kubectl binary for your cluster's Kubernetes version from Amazon S3 using the command for your device's hardware platform. The first link for each version is for amd64 and the second link is for arm64.
New for GA, the CSI external-provisioner (v1.0.1+) reserves the parameter keys prefixed with csi.storage.k8s.io/. If the keys do not correspond to a set of known keys the values are simply ignored (and not passed to the CSI driver). The older secret parameter keys (csiProvisionerSecretName, csiProvisionerSecretNamespace, etc.) are also supported by CSI external-provisioner v1.0.1 but are deprecated and may be removed in future releases of the CSI external-provisioner.
When volume provisioning is invoked, the parameter type: pd-ssd and the secret any referenced secret(s) are passed to the CSI plugin csi-driver.example.com via a CreateVolume call. In response, the external volume plugin provisions a new volume and then automatically create a PersistentVolume object to represent the new volume. Kubernetes then binds the new PersistentVolume object to the PersistentVolumeClaim, making it ready to use.
The kubernetes-csi site details how to develop, deploy, and test a CSI driver on Kubernetes. In general, CSI Drivers should be deployed on Kubernetes along with the following sidecar (helper) containers:
The Kubernetes Slack channel wg-csi and the Google group kubernetes-sig-storage-wg-csi along with any of the standard SIG storage communication channels are all great mediums to reach out to the SIG Storage team.
cert-manager will not automatically approve CertificateSigningRequests. Ifyou are not running a custom approver in your cluster, you will likely need tomanually approve the CertificateSigningRequest:
This command can be used to prepare a cert-manager installation that was createdbefore cert-manager v1 for upgrading to a cert-manager version v1.6 or later.It ensures that any cert-manager custom resources that may have been stored in etcd ata deprecated API version get migrated to v1. See Migrating Deprecated APIResources for more context.
To install the plugin you need the kubectl-cert-manager.tar.gz file for the platform you're using,these can be found on our GitHub releases page.In order to use the kubectl plugin you need its binary to be accessible under the name kubectl-cert_manager in your $PATH.
Calico networking and network policy are a powerful choice for a CaaS implementation. If you have the networking infrastructure and resources to manage Kubernetes on-premises, installing the full Calico product provides the most customization and control.
Calico is installed by an operator which manages the installation, upgrade, and general lifecycle of a Calico cluster. The operator isinstalled directly on the cluster as a Deployment, and is configured through one or more custom Kubernetes API resources.
The Calico CNI plugin connects pods to the host networking using L3 routing, without the need for an L2 bridge. This is simple and easy to understand, and more efficient than other common alternatives such as kubenet or flannel.
If you are using pod CIDR 192.168.0.0/16, skip to the next step. If you are using a different pod CIDR with kubeadm, no changes are required - Calico will automatically detect the CIDR based on the running configuration. For other platforms, make sure you uncomment the CALICO_IPV4POOL_CIDR variable in the manifest and set it to the same value as your chosen pod CIDR.
As a result, the above pod passes admissions and is launched. However, if group ID range checking is desired, a custom SCC, as described in pod security and custom SCCs, is the preferred solution. A custom SCC can be created such that minimum and maximum group IDs are defined, group ID range checking is enforced, and a group ID of 5555 is allowed.
To use a custom SCC, you must first add it to the appropriate service account. For example, use the default service account in the given project unless another has been specified on the pod specification. See Add an SCC to a User, Group, or Project for details.
It is generally considered a good practice not to modify the predefined SCCs. The preferred way to fix this situation is to create a custom SCC, as described in the full Volume Security topic. A custom SCC can be created such that minimum and maximum user IDs are defined, UID range checking is still enforced, and the UID of 65534 is allowed.
For standalone Red Hat Gluster Storage, there is no component installation required to use it with OpenShift Container Platform. OpenShift Container Platform comes with a built-in GlusterFS volume driver, allowing it to make use of existing volumes on existing clusters. See provisioning for more on how to make use of existing volumes. 2b1af7f3a8