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ACID (12486558, 12486558, 12486558, 12486558) refer to the characteristics of a database that guarantee that transactions are processed reliably.
Refers to the ability to set REPLICAS = ALLNODES.
Refers to the characteristic of a transaction that is all or nothing.
Standard computer science data structure used for fast access. See B-Tree at Wikipedia.
A barrier is a synchronization method used to control message flow within ClustrixDB. A barrier delineates a group of messages and all nodes must reach that barrier before proceeding.
The representation that contains all the table data and that is indexed by the primary key is the “Base Representation” or baserep. If no primary key is defined, ClustrixDB assigns a unique rowid key.
BigC is Clustrix's garbage collection process that cleans up undo logs needed to rollback running transactions. ClustrixDB must keep the system's state of a transaction the entire time a transaction is open. Once a transaction is committed, "BigC" removes it from the various undo logs as it is no longer needed.
Long-running transactions can cause BigC to become "pinned". That means that an old transaction must be preserved as it is potentially needed for recovery, yet subsequent activity on the cluster is causing the undo logs to become full.
Broadcasting refers to a method of transferring a message to all recipients simultaneously. ClustrixDB leverages distributed computing to avoid broadcasts. See how ClustrixDB scales joins.
ClustrixDB utilizes a Buffer Manager to exchange pages from disk to memory and vice versa.
Commit Identifier that marks when transactional changes become visible to other transactions.
A group of ClustrixDB nodes connected to provide a redundant, scalable RDBMS.
The ClustrixDB database process.
A consistent transaction does not violate any referential integrity during its execution.
Containers are the base storage unit used by ClustrixDB. They define how representations are stored and retrieved using an access method such as B-Trees, layered trees, skiplists, etc. Each slice and replica of a representation will have its own container, regardless of whether or not that container is written to disk.
ClustrixDB uses a cost-based model for the query optimizer (Sierra) that uses a cost factor based on I/O, CPU usage, and latency.
ClustrixDB leverages fine-grained data distribution and a shared-nothing architecture to provide scalability.
A collection of tables, or 12486558. This is also sometimes referred to as a schema. (The ClustrixDB term for tables is "relations.")
This file represents ClustrixDB's permanent storage and is used for all database data, undo logs, temporary tables, binlogs, and ClustrixDB system usage.
The write-ahead log (WAL) is stored in this file.
ClustrixDB uses this temporary storage for sorting and grouping of large query results.
Refers to the ability for ClustrixDB to perform aggregate queries (e.g. OLAP) in a distributed manner.
The distribution key is some prefix of a 12486558 key columns and is used to distribute data across the cluster.
This describes how a query is evaluated in ClustrixDB.
ClustrixDB component that prevents long-running queries from monopolizing cpu resources by giving priority to any waiting small queries.
Fanout is the ability to use multiple CPUs to execute a query.
The GTM and other subsystems use flow control to prevent message senders from outpacing receivers and to prevent receiving nodes' memory from filling up with unprocessed messages.
Sending a row or rows to another node for further processing.
A pre-compiled part of a query usually sent to another node for processing.
Global Transaction Manager (GTM)
A subsystem that manages the 12486558 commitment of transactions across the cluster, and ensures that all nodes involved come to the same decision every time.
The list of all nodes known to the cluster.
A group change is the event that occurs when a cluster forms a new group of nodes. This occurs when a node joins or leaves the cluster group.
Invocation Id that marks the beginning of a statement within a transaction.
ClustrixDB distributes indexes based on hashing the first column of an index unless advised otherwise. Also see Distribute.
An invocation represents a single use of the query engine. Typically, queries use a single invocation, but DDL queries and those that call a stored procedure or function can use multiple invocations.
is a property that defines how and when changes made by one transaction are visible to other concurrent transactions.
Layer trees are a set of B-Trees that appear as a single container. This is the default container type used by ClustrixDB.
Refers to a poor data distribution. See how the Rebalancer and Managing Data Distribution for additional information.
Massively Parallel Processing
Refers to the ability to leverage a large number of processors to perform a set of coordinated computations in parallel.
Defines the number of simultaneous failures that the cluster can survive. Also known as nResiliency.
Multi-Version Concurrency Control (MVCC)
A method used to implement concurrency and consistency in a distributed database environment. One of the original papers on this topic is Concurrency Control in Distributed Database Systems. ClustrixDB implements a modified version of this algorithm that provides optimizations for modern database workloads.
A single server running the ClustrixDB software. Multiple nodes connect to form a cluster.
Another term for 12486558.
Internal Object Identifier is a data type used by ClustrixDB internal structures.
Online Analytical Processing.
Online Transaction Processing.
PD (Probability Distribution)
Probability Distributions are tracked for values in each relation to aid in query planning.
Refers to the status of the cluster when at least two replicas of every slice are available. See also 12486558.
The job of the optimizer is to determine which execution plan uses the least amount of resources. Typically this is done by assigning costs to a query's plan and then choosing the plan with the lowest cost.
Queues are used to track changes to data that may have occurred for a given node while it was unavailable to the cluster.
ClustrixDB requires that a minimum number of nodes planned for a cluster are operational at any one time for it to be able to operate as configured. That minimum for ClustrixDB is called a quorum and it is calculated as one more than half of all the nodes configured for a cluster or (Total Nodes/2 +1). ClustrixDB cannot form a cluster without a quorum.
Ranked (or Ranking) Replica
Same as Read Replica.
ClustrixDB designates one replica of each slice of a table as the Read Replica. All reads are directed exclusively to that replica.
The ClustrixDB Rebalancer automatically moves, copies, redistributes, and re-ranks data across the cluster.
A table in ClustrixDB.
ClustrixDB maintains multiple copies of data for fault tolerance and availability.
Every index, including the primary key, is called a “Representation” in ClustrixDB. Each representation is made up of a series of slices. The table's data is stored in the 12486558.
When a slice has fewer replicas than desired, the Rebalancer will create a new copy of the slice on a different node.
As the dataset grows, ClustrixDB will automatically and incrementally redistribute the dataset one or more slices at a time.
Sierra is the name given to the ClustrixDB Query Optimizer.
Sigma containers are temporary containers used to store intermediate results of some queries.
ClustrixDB uses skip list data structures for In-Memory tables and some internal processes.
ClustrixDB breaks up each representation into a collection of logical slices. Rows are assigned to slices according to the results of a hashing function. See also 12486558.
An operation that removes a node from a cluster.
Refers to the state of the cluster when it does not have at least two copies (replicas) of each slice.
Virtual relation, often used to represent system information.
The Write Ahead Log is used to log every command that the user executes.
xid (Transaction ID)
An identifier used by ClustrixDB internals to denote the logical start of a Transaction.
ClustrixDB can be deployed across mutilple fault tolerance zones (AWS Availability Zones within the same Region, different server racks, different network switches, different power sources, or even separate servers in different data centers).