enabling businesses to build customized data workflows and leverage third-party AI, analytics, or visualization platforms. Flexible data handling: CrateDB is versatile platform capable of handling a wide range

rotate, and delete 2. Event router responsible for storing our events and metrics a. Enables visualization, trending, alerting, & other good things b. Enable threshold-based alerting & health checks

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 434 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 434 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 434 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 444 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 445 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 444 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 444 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using

providing a different user interface: • VS Code is a full IDE with built-in support for profile visualization • ProfileView.jl is a stand-alone visualizer based on GTK • ProfileVega.jl uses VegaLight and but can also generate interactive HTML files. An entirely independent approach to profile visualization is PProf.jl, which uses the external pprof tool. Here, though, we'll use the text-based display 444 In this simple example, we use PProf to visualize the alloc profile. You could use another visualization tool instead. We collect the profile (specifying a sample rate), then we visualize it. using