Cost Analysis#
Concept#
Each call to an LLM will cost some amount of money - for instance, OpenAI’s gpt-3.5-turbo costs $0.002 / 1k tokens. The cost of building an index and querying depends on
the type of LLM used
the type of data structure used
parameters used during building
parameters used during querying
The cost of building and querying each index is a TODO in the reference documentation. In the meantime, we provide the following information:
A high-level overview of the cost structure of the indices.
A token predictor that you can use directly within LlamaIndex!
Overview of Cost Structure#
Indices with no LLM calls#
The following indices don’t require LLM calls at all during building (0 cost):
SummaryIndex
SimpleKeywordTableIndex
- uses a regex keyword extractor to extract keywords from each documentRAKEKeywordTableIndex
- uses a RAKE keyword extractor to extract keywords from each document
Indices with LLM calls#
The following indices do require LLM calls during build time:
TreeIndex
- use LLM to hierarchically summarize the text to build the treeKeywordTableIndex
- use LLM to extract keywords from each document
Query Time#
There will always be >= 1 LLM call during query time, in order to synthesize the final answer.
Some indices contain cost tradeoffs between index building and querying. SummaryIndex
, for instance,
is free to build, but running a query over a summary index (without filtering or embedding lookups), will
call the LLM \(N\) times.
Here are some notes regarding each of the indices:
SummaryIndex
: by default requires \(N\) LLM calls, where N is the number of nodes.TreeIndex
: by default requires \(\log (N)\) LLM calls, where N is the number of leaf nodes.Setting
child_branch_factor=2
will be more expensive than the defaultchild_branch_factor=1
(polynomial vs logarithmic), because we traverse 2 children instead of just 1 for each parent node.
KeywordTableIndex
: by default requires an LLM call to extract query keywords.Can do
index.as_retriever(retriever_mode="simple")
orindex.as_retriever(retriever_mode="rake")
to also use regex/RAKE keyword extractors on your query text.
VectorStoreIndex
: by default, requires one LLM call per query. If you increase thesimilarity_top_k
orchunk_size
, or change theresponse_mode
, then this number will increase.
Usage Pattern#
LlamaIndex offers token predictors to predict token usage of LLM and embedding calls. This allows you to estimate your costs during 1) index construction, and 2) index querying, before any respective LLM calls are made.
Tokens are counted using the TokenCountingHandler
callback. See the example notebook for details on the setup.
Using MockLLM#
To predict token usage of LLM calls, import and instantiate the MockLLM as shown below. The max_tokens
parameter is used as a “worst case” prediction, where each LLM response will contain exactly that number of tokens. If max_tokens
is not specified, then it will simply predict back the prompt.
from llama_index import ServiceContext, set_global_service_context
from llama_index.llms import MockLLM
llm = MockLLM(max_tokens=256)
service_context = ServiceContext.from_defaults(llm=llm)
# optionally set a global service context
set_global_service_context(service_context)
You can then use this predictor during both index construction and querying.
Using MockEmbedding#
You may also predict the token usage of embedding calls with MockEmbedding
.
from llama_index import ServiceContext, set_global_service_context
from llama_index import MockEmbedding
# specify a MockEmbedding
embed_model = MockEmbedding(embed_dim=1536)
service_context = ServiceContext.from_defaults(embed_model=embed_model)
# optionally set a global service context
set_global_service_context(service_context)