![]() Lambda allocates CPU power in proportion to the amount of memory configured. You can configure the following options on a function, a function version, or an alias. $LATEST unpublished function version, or on any function alias. To add a unique HTTP(S) endpoint to your Lambda function. Reserved concurrency applies to the entireįunction, including all versions and aliases. To ensure that a function can scale without fluctuations in latency. Monitoring and operations tools – configure CloudWatch log groups and other monitoring tools.įunction to set the maximum number of simultaneous executions for a function. That are not available over the internet, configure it to connect to a virtual private cloud (VPC). Virtual private cloud (VPC) – If your function needs network access to resources Tags apply to the entire function, including all versions and aliases. Use tags to organize Lambda functions into groups for cost reporting and filtering in Tags – Key-value pairs that Lambda attaches to your function resource. To extend your function's configuration outside of code, You can also configure function timeout and the execution role.Ĭonfigure the execution role and other permissions.Įnvironment variables – Key-value pairs that Lambda sets in the executionĮnvironment. You can use it to jump to layer configurationįor functions defined as. You can use it to jump to trigger and destination configuration. The Function overview shows a visualization of your function and its upstream and downstream ![]() ![]() ![]() When you update your function's code and configuration.Ī published version is a snapshot of your function code and configuration that can't be changed (except for aįew configuration items relevant to a function version, such as provisioned concurrency). By default, the consoleĭisplays configuration information for the unpublished version of the function. Configuring Lambda advanced logging optionsĪ function has an unpublished version, and can have published versions and aliases.Configuring ephemeral storage (console).Accepting function memory recommendations (console).Ephemeral tributaries are functionally connected to downstream waters through CPOM storage and subsequent release that is timed when CPOM is often limited in downstream waters. Ephemeral tributaries were estimated to annually contribute 110.6 kg AFDM?km?1?yr?1 of leaves to the downstream mainstem. No CPOM measures were related to flow frequency. Wood deposition and transport had similar patterns. Per day) and lowest in February (2.5%) and May (2%). Mean percent of surrogate leaf transport from the ephemeral tributaries was highest in April (3.6% Leaf deposition was higher in December than February and May but did not differ from January, March, and April. Leaf deposition and surrogate transport varied over time, reflecting the seasonality of litterfall and runoff. Hydrology and deposition of leaf and wood, and surrogate transport (Ginkgo biloba leaves and wood dowels) were measured over month-long intervals through the winter and spring seasons (6 months) in 10 ephemeral tributaries (1.3–5.4 ha) in eastern Kentucky. Terrestrial coarse particulate organic matter (CPOM) is important in fueling aquatic ecosystems however, the extent to which ephemeral tributaries are functionally connected to downstream waters through fluvial transport of CPOM has been little studied. Headwater ephemeral tributaries are interfaces between uplands and downstream waters.
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